Adsorbent Materials ( 5976 ) |
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((C4H11)2NH2)2Co3(hfbba)4 |
((Me2NH2)In(NH2BDC)2) |
(Be-BTB) |
(C2H5)2dtoaCu |
(C4B2H4(COOH)2Li2) |
(C5H14N2)[(VO)3(AsO4)(HAsO4)2(OH)]*3H2O |
(C6H11NH3)2Mn3(hfbba)4 |
(Cd(im)2) |
(CH3)2-MIL-53 |
(CH3)2-MIL-53(Al) |
(CH3)2CO |
(Cr)-MIL-101-SO3Ag |
(Cu(db)) |
(Cu-BTC-DTG-0.92) |
(Cu-BTC-DTG-1.52) |
(Cu-BTCDTG-0.18) |
(Cu6(H2O)6(tatb)4*DMA*12H2O) |
(CuC8H10O6P2)*(H2O)x |
(Et2NH2)3[(Cu4Cl)3(TTCA)8] |
(H2dab)[Zn2(ox)3] |
(H2tdpip)Co3(hfbba)4 |
(H3O)4[Ni6(pi3-O)2(pi2-OSC2H6)2(SO4)2(TATB)8/3].4C2H6O.13H2O |
(Hbzza)2]*H2O*C2H5OH |
(HF)2-CO2-Y |
(HOC2H4)2dtoaCu |
(In3O)(OH)(ADC)2(IN)2*4.67H2O |
(In3O)(OH)(ADC)2(NH2IN)2*2.67H2O |
(LiCl)[Ni(bdc)(ted)0.5] t=100 |
(LiCl)[Ni(bdc)(ted)0.5] t=15 |
(LiCl)[Zn(bdc)(ted)0.5] |
(LiCl)[Zn(bdc)(ted)0.5] t=100 sec |
(LiCl)[Zn(bdc)(ted)0.5] t=15 sec |
(Me2NH2)2(DMF)9(H2O)5 |
(me2NH2)6[In10(TTCA)12]*24DMF*15H2O |
(Me2NH2)[Cd(TTCA)(H2O)].3DMF.H2O |
(NH2(CH3)2)3[Zn6(BTC)4(BTB)] |
(Ni/Co 25:75)-MOF-74 |
(Ni/Co 50:50)-MOF-74 |
(Ni/Co 75:25)-MOF-74 |
(Ni3O)2Ni(H2O)2(BDC)6(na)4 |
(OCH3).25-MOF-5 |
(OCH3).5-MOF-5 |
(OCH3).75-MOF-5 |
(OH)2-MIL-53 |
(OH)2-MIL-53(Al) |
(Si0.061Al0.483P0.455)O2 |
(Zn(CN)2) |
(Zn4O)3(BDC-NH2)3(BTB)4 |
(Zn4O)3[(BDC-C6H5N2Pd(OAc)2]3(BTB)4 |
([Co2(ade)(mu6-BTeC)(mu-H2O)(H2O)2]4(H2O) |
([Co3(L)(H2L)(DMF)(DABCO)] |
([Co@Zn3(L)(H2L)(DMF)(DABCO)] |
([CoZn3(L)(H2L)(DMF)(DABCO)] |
([Cu2(pzdc)2pyz] |
([triangle Co@Zn3(L)(H2L)(DMF)(DABCO)] |
([Zn(SiF6)(pyz)2]*2MeOH)n |
([Zn3(L)(H2L)(DMF)(DABCO)] |
([Zn4(dmf)(ur)2(ndc)4]) |
0.17%Pd@IRMOF-1 |
0.1TPABr-0.05Na20-SiO2-40H2O |
0.1TPAOH-SiO2-40H20 |
0.3(15C5)SNU-6 |
0.3(18C6)SNU-6 |
0.36TPAOH-0.39HF-SIO2-34H20 |
0.4(18C6)SNU-6 |
0.5(15C5)SNU-6 |
0.69%Pd@IRMOF-1 |
0.9(15C5)SNU-6 |
1 Layer Graphene (cutoff=12 Angstrom) |
1 Layer Graphene (cutoff=20 Angstrom) |
1 Layer Graphene (epsilon=0.11 kcal/mol) |
1 Layer Graphene (epsilon=0.121 kcal/mol) |
1,2-(4-bipyridyl)ethylene |
1-LiCl |
1-pyr |
1.2(18C6)SNU-6 |
1.3(15C5)SNU-6 |
1.30%Pd@IRMOF-1 |
1.5(18C6)SNU-6 |
1.5WT% Au@UiO-66 |
100% ZIF-8 In PVP |
100% ZIF-8 Microparticles |
100Krho-ZMOF |
100Ksod-ZMOF |
100Lirho-ZMOF |
100Lisod-ZMOF |
100Narho-ZMOF |
100WT%-PEI-MIL-101(Cr) |
10GO-ZIF |
10GO-ZIF-M |
10GO1-M |
10GO1M-ED |
10GOA-M |
10GOB-M |
10GOBM-ED |
10GOBM-EM |
10Pt/MOF-5 |
10wt%Mg2(dobdc)/PI |
10wt%Mg2(dobdc)/Polyimide |
10wt%Mg2(dobdc)/XLPEO |
13X |
15GO-ZIF |
1ABMOF |
1K-HKUST-1 |
1K-IRMOF-1 |
1Li-IRMOF-1 |
1MoCx/IRMOF-1 |
1Na-HKUST-1 |
1Pt/MOF-5 |
1wt% PdCl2/MIL-101 |
2 Layer Graphene (cutoff=12 Angstrom) |
2 Layer Graphene (cutoff=20 Angstrom) |
2 Layer Graphene (epsilon=0.11 kcal/mol) |
2 Layer Graphene (epsilon=0.121 kcal/mol) |
2 M HNO3 |
2-hydroxyethylcarbamate |
2.0%Pd@MIL-101 |
2.8WT% Au@UiO-66 |
20wt%Mg2(dobdc)/PDMS |
22% ZIF-8 In PVP |
22Nasod-ZMOF |
25% ZIF-8 In PS |
27Lisod-ZMOF |
28Ksod-ZMOF |
2ABMOF |
2C60-COF-108 |
2C60-COF-108-CH4 |
2C60-COF-108-CO2 |
2C60-COF-108-N2 |
2C60-COF-108-O2 |
2D [Cu(bpy)2(OTf)2]n |
2K-IRMOF-1 |
2Li-HKUST-1 |
2Li-IRMOF-1 |
2Na-IRMOF-1 |
3 Layer Graphene (cutoff=20 Angstrom) |
3-picoline |
30GO1-M |
30GO1M-ED |
30GOA-M |
30GOB-M |
30GOBM-ED |
30GOBM-EM |
35AS |
36 Wt% CuCl/Zeolite NaX |
3C60-COF-108 |
3C60-COF-108-CH4 |
3C60-COF-108-CO2 |
3C60-COF-108-N2 |
3C60-COF-108-O2 |
3D porous carbon (based on MOF-5) |
3D [Cu(bpy)2(OTf)2]n |
3GO-ZIF |
3Inf[(Cu(mu4-O)(mu2-OH)2(Me2trzpba)4] |
3K-IRMOF-1 |
3wt% PdCl2/MIL-101 |
4 M HNO3 |
4,4'-bipyridyl |
4.0WT% Au@UiO-66 |
437-MOF |
446-MOF |
446-MOF-Co |
446-MOF-Ni |
47.9%SWCNT/52.1%MWCNT |
49.2%SWCNT/50.8%MWCNT |
49.2%SWCNT/50.8%MWCNT(147K) |
49.2%SWCNT/50.8%MWCNT(277K) |
4Cs+Me-SodZMOF |
4K+Me-SodZMOF |
4K-IRMOF-1 |
4Li+Me-SodZMOF |
4Li-IRMOF-1 |
4MoCx/IRMOF-1 |
4Na+Me-SodZMOF |
4Na-IRMOF-1 |
4Pt/MOF-5 |
50WT%-PEI-MIL-101(Cr) |
56% ZIF-8 In PVP |
5wt% PdCl2/MIL-101 |
6 M HNO3 |
6FO-MIL-53-NH2 |
6K-IRMOF-1 |
6Li-IRMOF-1 |
6Na-IRMOF-1 |
70Lirho-ZMOF |
75WT%-PEI-MIL-101(Cr) |
7MoCx/IRMOF-1 |
7Pt/MOF-5 |
80Krho-ZMOF |
81.1%SWCNT/18.9%MWCNT |
84Narho-ZMOF |
88.7%SWCNT/11.3%MWCNT |
96.9%SWCNT/3.1%MWCNT |
A-CS700-3 |
A-CS750-3 |
A-CS800-2 |
A-CS800-3 |
A-CS800-4 |
A-CS850-3 |
A-CS900-3 |
A-NPC |
A25 |
A520 |
AB |
AB-Mg-MOF-74 |
ABIL@HKUST-1/DMF |
ABIL@HKUST-1/Ethanol |
ABIL@HKUST-1/H2O |
ABT*2ClO4 |
AC |
AC Norit |
AC Sigma |
AC-Chitosan |
AC-COOH |
AC-MIL-101 |
AC-MIL-101-A(Li) |
AC-MIL-101-B(Li) |
AC-MIL-101-C(Li) |
AC-TETA |
AC1 |
AC2 |
AC3 |
ACF |
ACF-A20 |
ACP/HFC-32 |
Acticarbone 3S |
Activated Carbon |
Activated Carbon (H3PO4H-6) |
Activated Carbon (H3PO4H-7) |
Activated Carbon (H3PO4H-8) |
Activated Carbon (KOH-1) |
Activated Carbon (KOH-2) |
Activated Carbon (KOH-3) |
Activated Carbon (KOH-4) |
Activated Carbon (KOH-5) |
Activated Carbon - anthracite |
Activated Carbon - coconut shell |
Activated Carbon - fruit shell |
Activated Carbon - pecan shell |
Activated Carbon A160 |
Activated Carbon A250 |
Activated Carbon A30 |
Activated Carbon A340 |
Activated Carbon A420 |
Activated Carbon A90 |
Activated Carbon AC67-1 |
Activated Carbon AC67-2 |
Activated Carbon ACP 1000 |
Activated Carbon ACP 350 |
Activated Carbon ACP 410 |
Activated Carbon ACP 470 |
Activated Carbon ACP 500 |
Activated Carbon ACP 600 |
Activated Carbon ACP 800 |
Activated Carbon AG-1 |
Activated Carbon AG-2 |
Activated Carbon AP33-1 |
Activated Carbon AP33-2 |
Activated Carbon AP67-1 |
Activated Carbon AP67-2 |
Activated Carbon AT400R05t120 |
Activated Carbon AT400R15t30 |
Activated Carbon AT400R15t30-ox |
Activated Carbon AT400R1t75 |
Activated Carbon AT400R1t75-ox |
Activated Carbon AT467R067t90 |
Activated Carbon AT467R117t45 |
Activated Carbon AT467R117t45-ox |
Activated Carbon AT533R083t60 |
Activated Carbon AT533R083t60(2) |
Activated Carbon AT533R083t60-ox |
Activated Carbon AT600R05t75 |
Activated Carbon AT600R1t30 |
Activated Carbon AT600R1t30-ox |
Activated Carbon AT667R067t45 |
Activated Carbon AT800R05t30 |
Activated Carbon AT800R15t120 |
Activated Carbon AX21 |
Activated Carbon BAM-P108 |
Activated Carbon BAM-P109 |
Activated Carbon Circumcircumcoronene |
Activated Carbon Corannulene |
Activated Carbon Coronene |
Activated Carbon Coronene Platelet |
Activated Carbon Coronene-(OH)2 |
Activated Carbon Coronene-(OH)3 |
Activated Carbon Coronene-COOH |
Activated Carbon Fiber |
Activated Carbon Fiber Cloth |
Activated Carbon Filtrasorb F400 |
Activated Carbon Hexabenzocoronene |
Activated Carbon L1 |
Activated Carbon L10 |
Activated Carbon L11 |
Activated Carbon L12 |
Activated Carbon L13 |
Activated Carbon L14 |
Activated Carbon L15 |
Activated Carbon L16 |
Activated Carbon L2 |
Activated Carbon L3 |
Activated Carbon L4 |
Activated Carbon L5 |
Activated Carbon L6 |
Activated Carbon L7 |
Activated Carbon L8 |
Activated Carbon L9 |
Activated Carbon Monolith |
Activated Carbon S |
Activated Carbon Takeda 5A |
Activated Carbon VR5-1:1 |
Activated Carbon VR5-2.5:1 |
Activated Carbon VR5-2:1 |
Activated Carbon VR5-3:1 |
Activated Carbon VR5-4:1 |
Activated Carbon VR93-1:1 |
Activated Carbon VR93-2.5:1 |
Activated Carbon VR93-2:1 |
Activated Carbon VR93-3:1 |
Activated Carbon VR93-4:1 |
Activated Carbon(NORIT R0.8) |
Activated Carbon-600-0.5 |
Activated Carbon-600-0.5-H |
Activated Carbon-600-1 |
Activated Carbon-600-2 |
Activated Carbon-700-0.5 |
Activated Carbon-700-1 |
Activated Carbon-700-2 |
Activated Carbon-750-0.5 |
Activated Carbon-750-2 |
Activated Carbon-800-0.5 |
Activated Carbon-800-1 |
Activated Carbon-800-2 |
Activated Charcoal |
Activated DCPCBim-MOF-Zn |
Activated PVDC Carbon S850 |
Activated PVDC Carbon S850-30% Burnoff |
Activated PVDC Carbon S850-65% Burnoff |
activated Zr 4 mesaconate framework |
activated [NC2H8]4Cu5(BTT)3xG |
activated {[Zn4(bpydb)3(datz)2(H2O)](DMF)4(EtOH)5(H2O)8}n |
activated-[Zn2(TCPPE)] |
Active Carbon |
Adhesiest 180 |
AFS Molecular Sieve |
AFSL |
AFX |
Ag/CuBTC-At |
AgI |
AgI/UiO-66 (.1) |
AgI/UiO-66 (.5) |
AgI/UiO-66 (1) |
AgI/UiO-66 (2) |
AH@BUT-51 |
AIMIL-53 |
AIPO-18 |
Al(1)-MOF |
Al(2)-MOF |
Al(4)-MOF |
Al(OH)(BDC)0.5(ABDC)0.5 |
Al(OH)(bpydc)*0.97Cu(BF4)2 |
Al(OH)BDC |
Al-6(Ca2+) |
Al-BDC (micro) |
Al-BDCmeso |
Al-BDCsyn/Al-BDCevac |
Al-BTB |
Al-FDA |
Al-MIL-101-NH |
Al-MIL-101-NH-Gly-Pro |
Al-MIL-53 |
Al-MIL-53-(OH)2-AS |
Al-MIL-53-0%NH2 |
Al-MIL-53-100%NH2 |
Al-MIL-53-11.1%NH2 |
Al-MIL-53-20%NH2 |
Al-MIL-53-50%NH2 |
Al-MIL-53-66.6%NH2 |
Al-MIL-53-66.7%NH2 |
Al-MIL-53-Br-AS |
Al-MIL-53-CH3-AS |
Al-MIL-53-Cl-AS |
Al-MIL-53-COOH |
Al-MIL-53-NH2 |
Al-MIL-53-NO2-AS |
Al-MOF |
Al-PCP-FA |
Al-PILC |
Al-PMO2 |
Al-PMO50 |
Al-rho-MOF |
Al-Rho-ZMOF |
Al-SBA-15 |
Al-soc-MOF(A-4CH3) |
Al-soc-MOF(A-A) |
Al-soc-MOF(A-A-CH3) |
Al-soc-MOF(A-P) |
Al-soc-MOF(B-2CF3) |
Al-soc-MOF(B-3Br) |
Al-soc-MOF(P-2Br) |
Al-soc-MOF(P-2Br-1-1) |
Al-soc-MOF(P-4Br) |
Al-soc-MOF(P-An) |
Al-soc-MOF(P-CF3) |
Al-soc-MOF(P-Na) |
Al-soc-MOF(PA-AP) |
Al-soc-MOF(PA-P) |
Al-soc-MOF(PP-AP) |
Al-soc-MOF(PP-P) |
Al-soc-MOF(PP-PP) |
Al-soc-MOF-1 |
Al-soc-MOF-2 |
Al-soc-MOF-3 |
Al-TCBPB |
Al-usf-ZMOF |
Al2O3 |
Ala-MTV-MOF |
Alane@ZIF-8 |
AlaZnOAc |
AlBTC |
AlCl3(1.2%)/MIL-100(Fe) |
AlCl3(2.5%)/MIL-100(Fe) |
AlCl3(5.0%)/MIL-100(Fe) |
AlK-10 |
AlK-5 |
AlMePO-alpha |
Alpha-Mg Formate |
AlPO-18 |
AlPO4-11 |
AlPO4-5 |
AlPO4-8 |
Alumina |
Alumina 1593 |
Alumina 1597 |
Alumina VPO2 |
Aluminum-pillared Montmorillonite |
Amberlyst 15 |
AmGND-bio-MOF-1 |
Amine-MIL-101(Cr) |
Amino-MIL-53(Al) |
AMP |
AMSA-MIL-101 |
Analcime |
Anthracite |
Anthracite A W102 |
Anthracite C H10 |
Anthracite C H7 |
Anthracite C H9 |
Anthracite C HL7 |
Anthracite C J6 |
AO@{[Zn(oxo-pba)2(bpy)]4H2O}n |
AOP-C2H4 |
AOP-C3H6 |
AOP-C6H4 |
AOP-CH2 |
AP 3-60 |
Apo-MOF |
Apohost 1 |
APS/Mesoporous silica nanoparticles |
APS/nanosilica-Torlon hollow fiber sorbent |
APS/nanosilica-Torlon hollow fiber sorbent-hexane rinsed |
Arg-Asp-24-AF |
Arg-Asp-24-CD |
Arg-Asp-36-ABF |
Arg-Asp-36-ACF |
Arg-Asp-36-BCD |
Arg-Asp-MTV-MOF |
Argon/heat treated Activated Carbon Fiber |
ASMS 3A |
ASMS 5A |
ASX Xerogel |
Au(111) |
Au-IRMOF-1 |
Au-Pd-ZIF-8 |
Au-Pd/C |
Au-Pd/MIL-101 |
Au-Pd/MIL-EN |
Au-SAM |
Au@Cu2O@HKUST-1 |
Au@HKUST-1 |
AX-21 |
B3H6N3 |
Ba/CuBTC |
Ba3(H2O)3(L2)2(H2O)8 |
Ba3L2 |
Ba3L2(H2O)2 |
Ba3L2(H2O)8 |
BAM-CRM-PM-104 |
BAX-Activated Carbon |
BAX-Activated Carbon (slit width = 10.122 Angstrom) |
BAX-Activated Carbon (slit width = 14.991 Angstrom) |
BAX-Activated Carbon (slit width = 15.183 Angstrom) |
BAX-Activated Carbon (slit width = 19.988 Angstrom) |
BAX-Activated Carbon (slit width = 19.9881 Angstrom) |
BAX-Activated Carbon (slit width = 20.244 Angstrom) |
BAX-Activated Carbon (slit width = 9.994 Angstrom) |
BDH-Activated Carbon |
Be-BTB |
Be-IRMOF-1 |
BeDOBDC |
Benzene |
Berkosorb |
Beta-CuL2 |
Beta-Mg(HCOO)2 |
Beta-[{Co(F-pymo)2}n] |
Beta-[{Zn(F-pymo)2}n] |
Beulah Zap Coal |
BFG@Cd-PBM |
BIF-24 |
BIK |
Binderless Beads of Zeolite 5A |
Bio-MOF-1 |
Bio-MOF-100 |
Bio-MOF-11 |
Bio-MOF-12 |
Bio-MOF-13 |
bio-MOF-13 (Configuration I) |
bio-MOF-13 (Configuration II) |
Bio-MOF-14 |
bio-MOF-14 (Configuration I) |
bio-MOF-14 (Configuration III) |
BioMil-3 |
BioMOF-100 |
Bitaminous A P |
Bituminous A H8 |
Bituminous A J5 |
Bituminous A P |
Bituminous C P9 |
Bituminous C Q3 |
Bituminous Coal |
Blind Canyon Coal |
BLP-2(H) |
Blucher-101408 |
BM-1 |
BM-2 |
BM-3 |
BM-4 |
BM-5 |
BM-6 |
BMOF-1-bpdc |
BMOF-1-dcppy |
Bn-Chir-UMCM-1 |
BNC800-1 |
BNC800-2 |
bNiCo |
BP-280 |
Bpcb@IRMOF-1 |
BPL Carbon |
Bpob@IRMOF-1 |
BPS-1 |
Br-MOF-5 |
Br-MOF-5-40h |
Br-Zn-CBTACN |
Bridged-COF-1 |
Bridged-CuBTC |
Bridged-MIL-101 |
BrMOF-5 |
BSP/JUC-120 |
BT-IFMC-16 |
BTP-COF |
Bu-FeCr |
Buckytube double 4.78 nm |
Buckytube single 1.02nm |
Bulk CID-1 |
Bulk CoCo |
Bundles Nanotubes |
Busulfan@Zn(NO2-BDC)(dmbpy).5](C2H6O)(H2O)-a |
BUT-30 |
C-1/2 |
C-25W |
C-IRMOF-8 |
C-MOF |
C-MOF-177 |
C-MOF-2 |
C-MOF-5 |
c-NENU-3a |
C-Zn-ADA |
C-Zn-BTC |
C-Zn-NDC |
C-Zn-PAA |
C1000 |
C1000/1000 |
C102H109N10O38.5Zn9 |
C106H106N2P4Pt2*CH2Cl2 |
C10F0.9(BF4)9.1 |
C10Gua-HKUST |
C10H11FeN3O7 |
C10H13ClN2O5Cd |
C10H14Mg2O14 |
C10H4O12Eu2 |
C10H5MnN3O4 |
C10H7CuO5 |
C10H8N2 |
C10H9CuO5 |
C112H120Cl4Eu2N18O21Zn2 |
C115.5H202N14O43Zn4 |
C11H12GdO11 |
C11H15BrN2O4Zn |
C11H15ClN2O4Zn |
C11H18N16O10Zn4 |
C1200 |
C12Gua-HKUST |
C12H11N |
C12H12O4Zn |
C12H17ClN2O3Cd |
C12H18N2O16Zn2 |
C12H24N4Cu4I6 |
C12H35Cu3N6O19.50 |
C12H6O13Zn4 |
C13H14F4N2O6Zn3 |
C13H20N12O11Zn3 |
C13H8CuNO4 |
C1400 |
C141 |
C14Gua-HKUST |
C14H10I3N5O5Pb |
C14H12Cu2N2O12 |
C14H12Mg6NO24 |
C14H14AgN6O9 |
C14H14FeN2O8 |
C14H14N2O11 |
C14H18N4O11Cd2 |
C14H20.5N4O12.25Zn |
C14H54F6O8P2PtS2 |
C14H6BaN4O4 Pt*5H2O |
C14H6N4O4Pt Ca*6H2O |
C14H6N4O4Pt Sr*3H2O |
C14H6N4O4PtMg*9H2O |
C15.50H26N6.25Na4Ni2O22.625 |
C153H159Cl22Fe3N21O82Pr8S4.5Sb24 |
C1548H2396O756S234Zn98 |
C154H106N2P4Pt2*2.5ClCH2CH2Cl |
C15H11N3 |
C15H13N1O8Zn1 |
C15H13O13La |
C15H27N2O10Dy |
C15H27N2O10Er |
C15H27N2O10Ho |
C15H27N2O10Tb |
C15H27N2O10Tm |
C15H38Gd2N6O25 |
C15H7NO4Cu |
C15H7NO4Zn |
C15H9Cu1.66N18O |
C16.5H17.5N1.5NaO9.5V |
C16Be2H8 |
C16Gua-HKUST |
C16H10CuN4O4 |
C16H12O16P2Zn3 |
C16H16N4O9Cd2 |
C16H18N4O8Cd |
C16H18N6O2 |
C16H34 |
C16H8O2 |
C17.5H21.5CuN2.5O7.5 |
C17H27CoN3O7.50 |
C18H16N2NiO6.5 |
C18H18I3N3O8Pb |
C18H21Br2N4O9Cd2 |
C18H28O10MgN2 |
C192H152F12N4O12P4Pt2S4*8ClCH2CH2Cl |
C19H19CdN4O6 |
C20-COF |
C20H16NO5Zn |
C20H27N6O4Ag2 |
C20H27NO19P2Zn3 |
C20H44Cu5N12O26 |
C21H21Cu2NO10 |
C21H22N14Ga2 |
C21H31NO20P2Zn3 |
C21H35ClN6O9 |
C22F0.2(BF4)0.8 |
C22H28Cu2N2O15 |
C22H32CoN6O3 |
C22H34N2O16Co2 |
C23H27Cu2N2O11 |
C23H27Cu2N2O11.5 Desolvated |
C23H33Mg2N3O11 |
C23H36N4O12Cl2Zn |
C23H36N4O8S2 |
C23H38N4O8S2 |
C24-COF |
C24.50H56F6N2O10.50Zn |
C24.5H26ClCuN4O4.5S3 |
C24H16CoN10 |
C24H21In3N4O22 |
C24H21N3 |
C24H30Cu6N18O28S5 |
C24H39N4O60Ni2PW12 |
C24H40N2O16Cl2Cd3 |
C24H8Cd4ClN32O4 |
C24H8ClCo4N32O4 |
C26-COF |
C26H20CoN10 |
C26H24Br2Cu2N8O3 |
C26H24Mn2N8O10 |
C26H24N2O4Zn |
C26H28CuB2F8N4 |
C26H8Cu2N2O12 |
C27H18Be3O9*3H2O |
C28-COF |
C28H24 |
C28H24CoN10 |
C28H26ZnN10O |
C28H28Cu4N20O2 |
C28H30Co3N2O14 |
C28H39N5O16Cu2 |
C28H40Co4N4O26 |
C29H20O12 |
C29H24CdCl2N6O2S2 |
C29H27Cl9CuN6S4 |
C2H2MnO4 |
C2H3.25Ce0.17O3.12Zn0.25 |
C2H5COO- |
C2H6O6Mg |
C30-COF |
C30H18Mn9N18O18 |
C30H18N3Ni3O13 |
C30H28N2O16Zn2 |
C30H36Co2N4O13 |
C30H36N4CuF12O2P2 Desolvated |
C30H42LiN3O13V |
C31H22NO4Zn |
C31H32Cl4Co3N10O3 |
C324Cr9Cu27O180 |
C32F8 |
C32F8-12H2 |
C32F8-24H2 |
C32F8-H2 |
C32H18F2N2O8Zn2 |
C32H22N2O9Zn2 |
C32H24Ar1.04Cu2N2O8 |
C32H24Ar1.15N2O8Rh2 |
C32H24Cd2N6O12 |
C32H24Cu2N2O8 |
C32H24Cu3N6O12 |
C32H24N2O8.98Rh2 |
C32H24N2O8Rh2 |
C32H26Cl4N4O4Rh2 |
C32H34N4O15Cl5Zn3 |
C32H40O11S2 |
C32H46N4O8Zn |
C33H11Br1N4O7Zn1 |
C33H15Cu3N3O18 |
C33H26Cu2N2O8 |
C33H26N2O8Rh2 |
C34H28Cu2N2O8 |
C34H28N2O8Rh2 |
C34H30N4O8Zn2 |
C34H40CdFeN4O10S2 |
C35H27N7O9Zn2 Treated |
C35H30N2O8Rh2 |
C35H45N3O11 |
C36-COF |
C36H12Cd3N0O34Tb2 |
C36H20Co3N8O12 |
C36H22N6O9Zn2Li0.10 |
C36H24Cu3N13O12 |
C36H24N6O10Zn2K0.14 |
C36H24N6O10Zn2Li0.70 |
C36H24N6O10Zn2Na0.24 |
C3792H5232N560Zn192O2096-Cu |
C37H90Cu4O55 |
C384H192N48O96Tb16 |
C38H56CdFeN4O14S2 |
C39H21Co3N3O19 |
C40.59H1.74Zn30.04 |
C40.5H32.5N11.5O9.5Zn2 |
C40H20Zn2N4O12 |
C40H22N10Mn |
C40H26CoN8O6S2 |
C40H50N4O23Zn2 |
C40H54N4Ni2O21 |
C40H84Cu10N24O50 |
C41H28N6O4Ni |
C41H46Cu2N2O16 |
C41H57Mn5N13O19 |
C42H38O20Zn4|[Zn4O(C14H12O6)3*H2O]|[Zn4O(L1)3*H2O] |
C42H41O21.5Zn4[Zn4O(C14H12O6)3*2.5H2O][Zn4O(L2)3*2.5H2O] |
C42H58N14O6Co2 |
C43.7H10Mn2N6O8 |
C44H27N3O10Ru0.5Zn2 |
C44H30O15Zn4 |
C44H34N8O5Ni |
C46H40N4O10Zn2 (Guest Free) |
C46H42N3O16Zn2 |
C48H24N4O12Li0.06Zn2 |
C48H24N4O12Zn2K0.06*3H2O |
C48H24N4O12Zn2K0.24*3H2O |
C48H24N4O12Zn2K0.84*4H2O |
C48H24N4O12Zn2Li0.06*2H2O |
C48H24N4O12Zn2Na0.10*3H2O |
C48H27N2O8Zn2 |
C48H34N18O12S2Zn5 |
C48H36EuN7O6 |
C48H38CdCl2N12O9 |
C48H46Co3N4O16 |
C48H46Mn3N4O16 |
C48H55N4O19Zn3 |
C48H55N4O19Zn3@FCNF |
C48H60N12O35Zn11 |
C49.25H25.25Cl3.75N4O12Zn2 |
C49H36CdCl6N12O8 |
C4H4O |
C4H4S |
C4H5N |
C4H6FN3Zn |
C4H7O2- |
C4H8HoKO12 Dehydrated |
C4N8O4Cd2 |
C5.33H8.67N3.17O2.25Zn |
C50H22Cu3O15 |
C50H38CdCl8N12O8 |
C50H40CdCl6N12O8 |
C50H48Co3N6O14S3 |
C50H67N5O11Zn |
C51H30Ca2F18O14 |
C51H33NO12Zn2 |
C51H34Br2N2O8SiZn2 |
C52H18Tb6N26O48F6 |
C52H18Tb6N26O48F6 (site 1) |
C52H18Tb6N26O48F6 (site 2) |
C52H18Tb6N26O48F6 (site 3) |
C52H18Y6N26O78F6 |
C52H41CdCl2N12O8 |
C52H73N4O26.5Zn5 |
C540H840Cu24N108O180 |
C54H34CdCl6N10O14 |
C54H41CdCl2FN12O8 |
C54H41Cu6NO36 |
C54H42CdCl2N12O8 |
C54H52F12N18O2P2Co |
C54H52F12N18O2P2Zn |
C55H43NO12Zn2 |
C55H44CdCl2N12O8 |
C55H52Fe4N20O18 |
C55H6N39 |
C56H46CdCl2N12O8 |
C56H63N7O13Zn4 |
C57H36In3N4O16 |
C59H63N5O17Zn4 |
C5H12N8O6Zn2 |
C5H4BaN2O5 |
C5H5N |
C5H9O2- |
C60 |
C60 powder |
C60 Sublimed |
C60-COF |
C60-Na Y |
C60@IRMOF-10 |
C60@IRMOF-8 |
C60@Li-IRMOF-10 |
C60H193N12O120.5Na4Cu6Mn4 |
C60H48CdCl2N12O8 |
C60H53Cd3N9NaO19.5 |
C61H50CdCl2N12O8 |
C62H44N2O8Zn2 |
C62H50Cd3K2N2O26 |
C62H52CdCl2N12O8 |
C64.50H61.95N4O14.75Zn2 |
C64H64O16Cu4 |
C65H113N15O19Zn |
C65H113N15O19ZnLi0.20 |
C65H113N15O19ZnLi2.62 |
C65H113N15O19ZnMg.86 |
C65H113N15O19ZnMg2.02 |
C66H50B2CoCu6N18O24 |
C67.50H69.50N10.50O18.50Zn2 |
C67.50H78.25Cd1N1.75Na0.25O19 |
C68H52Co3N10O21 |
C6H10CuN3 |
C6H2(CH3)4 |
C6H2F4 |
C6H4(CH3)2 |
C6H4(OH)2 |
C6H4Br2 |
C6H4CoN4 |
C6H4N4Zn |
C6H5Br |
C6H5CH3 |
C6H5Cl |
C6H5COOH |
C6H5NH2 |
C6H5NO2 |
C6H5SO3H |
C6H6 |
C6H6N2O5Cd |
C6H6PdN4O |
C6H8O4SAg2 |
C70-COF |
C700 |
C700/700 |
C700/950 |
C72.5H79.5Cd3NaN14.5O15 |
C72H104N6O6 |
C72H42Ni3N6O13 |
C72H90Cu12N12Na4O65 |
C72H96O6 |
C74.78H46.32N8.46O20.92Zn2 |
C74Cd3O16N4H74 |
C75H129Cu3N11O37 |
C76.5H36Cl6F20O12Zn5 |
C76H116N14O42Zn3 |
C76H52N6O18Zn7 |
C78H54Co4N12O20 |
C78H54N18O13Zn4 |
C7H14EuN2O12 |
C7H15NO7PDy*2H2O |
C7H15NO7PEu*2H2O |
C7H15NO7PGd*2H2O |
C7H15NO7PTb*2H2O |
C7H3NO4Ba |
C7H5FInNO5 |
C7H5NO5Mg |
C800 |
C800/800 |
C80H50Mg15O80 |
C80H91.33CdCl6N6O20.67 |
C80H99N25O17Zn5 |
C88H78Mn6N4O22 |
C89H133N7O7 |
C8H10N2O5Zn |
C8H11CuO7 |
C8H28Cu2N6O17S2 |
C8H2I3NO4Pb |
C8H4N6FeNi |
C8H5MgO5 |
C8H7CuN5 |
C8H7N5Ni |
C8H8Cu2FeN6O12 |
C8H8Cu2MnN6O12 |
C8H8N2O5Cd |
C9.50H9.50Li2N0.50O5.50 |
C900 |
C900/900 |
C900/950 |
C90H114Cd3Fe3N18O30 |
C94H81.50N7O30Zn4 |
C98H82F20O12Zn5 |
C99.50H120.50Cd4N15.50O35.50 |
C99H72Cd6O42 |
C9H11CdN5O |
C9H11ClN2O4Cd |
C9H14N12O6Co2 |
C9H25N37O11Cd5 |
C9H25N37O11Cu5 |
C9H3FeO6 |
C9H3FeO6/EtOH |
C9H3GdO6 |
C9H5YO7 Dehydrated |
Ca(BDC)(DMF)(H2O) |
Ca-5TIA-Gel |
Ca-5TIA-MOF |
Ca-A |
Ca-BTT |
Ca-CHA |
Ca-KFL |
Ca-MOF-74 |
Ca-MOF16 |
Ca-rho-MOF |
Ca-usf-ZMOF |
Ca-X |
Ca-Y |
CA1 |
CA2 |
Ca48X |
CAB-70 |
Cabot BP |
CaBTB |
CaBTT |
CaCOF-d |
CaH2 |
Calcinated Silicalite-1 |
CALF-22 |
CALF-25 |
CALF-30 after 24h at 25C and 90%RH |
CALF-30 after 24h at 80C and 90%RH |
CALF-30 post activation |
Calgon F-400 |
Calixarene |
CAMA gel |
Carbon |
Carbon AG5 |
Carbon AG5-H2O2 |
Carbon AG5-HClO4 |
Carbon AG5-HNO3 |
Carbon AG5-HNO3 (356K) |
Carbon AM |
Carbon AM-0.5 |
Carbon AM-1 |
Carbon AM-2 |
Carbon AM-3 |
Carbon AM-4 |
Carbon AX-21_33 |
Carbon B |
Carbon Black |
Carbon Black (Regenerated) |
Carbon Black (Spent) |
Carbon Black AS N880 |
Carbon Black CC N880 |
Carbon Black CC N990 |
Carbon Black CC N990 UP |
Carbon Black CC N991 Lot 1 |
Carbon Black CC N991 Lot 2 |
Carbon Black EC N990 |
Carbon Black EC N991 |
Carbon Black Elftex120 |
Carbon Black GP N991 |
Carbon Black LU N880 |
Carbon Black N330 |
Carbon Black N375 |
Carbon Black SC N990 |
Carbon Black SRB N762 |
Carbon Black SterlingFT |
Carbon Black TC N550 |
Carbon Composite C1-15 |
Carbon Composite C1-30 |
Carbon Composite C1-60 |
Carbon Composite C2-15 |
Carbon Composite C2-30 |
Carbon Composite C2-60 |
Carbon Composite C3-15 |
Carbon Composite C3-30 |
Carbon Composite C3-60 |
Carbon Composite C4-15 |
Carbon Composite C4-30 |
Carbon Composite C4-60 |
Carbon Composite C5-15 |
Carbon Composite C5-30 |
Carbon Composite C5-60 |
Carbon Composite C6-15 |
Carbon Fiber |
Carbon Fiber Composite C |
Carbon Fiber PCF |
Carbon KNC-A-HCI |
Carbon KNC-A-K |
Carbon Molecular Sieve |
Carbon Molecular Sieve Fibers |
Carbon Molecular Sieve Fibers pre-evacuated at 500C |
Carbon Molecular Sieves |
Carbon Nanobundles |
Carbon Nanofiber |
Carbon Nanohorns |
Carbon Nanosheets |
Carbon Nanotube |
Carbon Nitride Aerogel |
Carbon NPC (Large Size) |
Carbon NPC (Middle Size) |
Carbon NPC (Small Size) |
Carbon PAF-301 |
Carbon PAF-302 |
Carbon PAF-303 |
Carbon PAF-304 |
Carbon SBA-15 |
Carbon SBA-C |
Carbon SBA-C-A-HCI |
Carbon SBA-C-A-K |
Carbon SBA-NC |
Carbon Slit |
Carbon Slit Pore |
Carbon Slit Pore (internal pore width = 10.29 Angstrom) |
Carbon Slit Pore (internal pore width = 11.26 Angstrom) |
Carbon Slit Pore (internal pore width = 11.78 Angstrom) |
Carbon Slit Pore (internal pore width = 12.32 Angstrom) |
Carbon Slit Pore (internal pore width = 13.48 Angstrom) |
Carbon Slit Pore (internal pore width = 14.75 Angstrom) |
Carbon Slit Pore (internal pore width = 16.14 Angstrom) |
Carbon Slit Pore (internal pore width = 19.32 Angstrom) |
Carbon Slit Pore (internal pore width = 23.13 Angstrom) |
Carbon Slit Pore (internal pore width = 28.97 Angstrom) |
Carbon Slit Pore (internal pore width = 3.15 Angstrom) |
Carbon Slit Pore (internal pore width = 3.49 Angstrom) |
Carbon Slit Pore (internal pore width = 3.82 Angstrom) |
Carbon Slit Pore (internal pore width = 36.27 Angstrom) |
Carbon Slit Pore (internal pore width = 4.18 Angstrom) |
Carbon Slit Pore (internal pore width = 4.58 Angstrom) |
Carbon Slit Pore (internal pore width = 47.52 Angstrom) |
Carbon Slit Pore (internal pore width = 5.01 Angstrom) |
Carbon Slit Pore (internal pore width = 5.48 Angstrom) |
Carbon Slit Pore (internal pore width = 6.00 Angstrom) |
Carbon Slit Pore (internal pore width = 6.56 Angstrom) |
Carbon Slit Pore (internal pore width = 6.86 Angstrom) |
Carbon Slit Pore (internal pore width = 65.11 Angstrom) |
Carbon Slit Pore (internal pore width = 7.18 Angstrom) |
Carbon Slit Pore (internal pore width = 7.85 Angstrom) |
Carbon Slit Pore (internal pore width = 8.59 Angstrom) |
Carbon Slit Pore (internal pore width = 8.99 Angstrom) |
Carbon Slit Pore (internal pore width = 9.40 Angstrom) |
Carbon Slit Pore (internal pore width =7.18 Angstrom) |
Carbon Slit Pore (internal pore width =7.85 Angstrom) |
Carbon Slit Pore (width = 72.4 Angstrom) |
Carbon Soot |
Carbon Sphere |
Carbon Tube |
Carbon WD |
Carbon WD-H2O2 |
Carbon WD-HClO4 |
Carbon WD-HNO3 |
Carbon WD-HNO3 (356K) |
Carbon/Zeolite |
Carbonized Fiber PCF |
Carbonized Fiber PCGF-H |
Carbonized Fiber PCGF-N |
Carbonyl Functionalized Graphite (20 Angstrom pore width) |
Carbonyl Functionalized Graphite (9.2 Angstrom pore width) |
Carbonyl_Hydroxyl Functionalized Graphite (20 Angstrom pore width) |
Carbonyl_Hydroxyl Functionalized Graphite (9.2 Angstrom pore width) |
Carbopack F |
Carbosieve G |
Carbotech Activated Carbon |
Carboxen |
Carboxen 1000 |
Carboxen 1003 |
Carboxen 569 |
CAT@ZIF-90 |
CAU-1 |
CAU-1-NH2 |
CAU-1-NHCH3 |
CAU-1-NHCOCH3 |
CAU-10 |
CAU-10-CH3 |
CAU-10-H |
CAU-10-NH2 |
CAU-10-NO2 |
CAU-10-OCH3 |
CAU-10-OH |
CAU-10-pydc |
CAU-13 |
CAU-8 |
CAU-9a |
CAUMOF-11 |
CB/4Pt/MOF-5 |
CB10H11Sc |
CB5H6Sc |
CBV-901 |
CCT1 |
CCT2 |
CCT3 |
CCT4 |
Cd (II)-MOF [Cd(L)(DMF)] |
Cd(II)-MOF |
Cd-4TP-1 |
Cd-MOF-1 |
CD-MOF-2 |
Cd-MOF-74 |
Cd-PBM |
Cd-TMBP-Triazole-diyl-TAA |
Cd1.5(H3O)3[(Cd4O)3(hett)8]*6H2O |
Cd3C28H30N20O4 |
Cd3[(Cd4Cl)3(BTT)8(H2O)12]2*19DMF*129H2O |
Cd3[Co(CN)6]2 |
Cd3[Co(CN)6]2(nH2O) Nanocubes |
Cd3[Co(CN)6]2(nH2O) Octahedrons |
CdBTC |
CDC-1300-1000 |
CDC-3-1000-1000 |
CDC-3-1300-1000 |
CDC-5-1000-850 DVB |
CdC15H20N2O7 |
CDMOF-1 |
CdS |
CdSDB |
Ce2(ADB)3(DMSO)4*6DMSO*8H2O |
Cellular Carbon Foam |
Cellular Carbon Foam (1% Aluminum Nitrate) |
Cellular Carbon Foam (2% Aluminum Nitrate) |
Cellular Carbon Foam (3% Aluminum Nitrate) |
Cellular Carbon Foam (4% Aluminum Nitrate) |
Cellular Carbon Foam (5% Aluminum Nitrate) |
Cellular Carbon Foam (cycle 1) |
Cellular Carbon Foam (cycle 2) |
Cellular Carbon Foam (cycle 3) |
Cellular Carbon Foam (cycle 4) |
Cellular Carbon Foam (cycle 5) |
Cellulose MOF |
Ceramic Foam |
CF1ac |
CF2ac |
CFCMS Carbon Fiber |
CH2NH2(1)-PCN-125 |
CH2NH2(2)-PCN-125 |
CH3(1)-PCN-125 |
CH3(2)-PCN-125 |
CH3-IRMOF-1 |
CH3-MOF-5 |
CH3-MOF-5-40h |
CH3CO2- |
CH3MOF-5-H40 |
CHA |
Chabazite |
Charcoal |
Chem 2-Li |
Chem-1 Li |
Chem-4 Li |
Ci/Ceramic Cantilever |
CID-1 |
CID-13 |
CID-3 |
CID-5 |
CID-5/6 |
CID-5/6 (X = .06) |
CID-5/6 (X = .13) |
CID-5/6 (X = .22) |
CID-5/6 (X = .43) |
CID-5/6 (X = .61) |
CID-5/6 (X = .82) |
CID-6 |
CID-N3 |
Cl-MOF-5 |
Cl-MOF-5-24h |
CL-polymer |
Cl-Zn-CBTACN |
Cl-Zn2-CBTACN |
Cl2Cu*3CuH2O2 |
ClAu-PCM-10 |
Clay nanopores (width=1nm) |
Clay nanopores (width=1nm) with cation exchange |
Clay nanopores (width=4nm) |
Clay nanopores (width=4nm) with cation exchange |
Clinoptilolite |
ClMOF-5 |
Closed-SWCNH |
Cmcm-Na0 |
Cmcm-Na4 |
Cmcm-Na8 |
CMK-3 |
CMK-5 |
CMPN-1 |
CMPN-2 |
CMPN-3 |
CMS C600 |
CMS C700 |
CMS C800 |
CMS C900 |
CMS-T3A |
CND |
CNF |
CNF@MIL-53 |
CNG |
CNI-3P |
CNT double 2.5nm |
CNT double 2.5nm - inner |
CNT double 2.5nm - outer |
CNT double 2.5nm - unrestricted |
CNT@CuBTC |
Co(BDC)(PNO) |
Co(bdc)dabco |
Co(BDP) |
Co(BDP)*2DEF*H2O |
Co(bdp)-.2 g/cm^3 of stress |
Co(bdp)-.52 g/cm^3 of stress |
Co(bdp)-.75 g/cm^3 of stress |
Co(bpy)1.5(NO3)2*(ACN) |
Co(bpy)1.5(NO3)2*(DCM) |
Co(bpy)1.5(NO3)2*(EtOH) |
Co(bpy)1.5(NO3)2*(MeCN) |
Co(bpy)1.5(NO3)2*(MeOH) |
Co(bpy)1.5(NO3)2*(THF) |
Co(II)-doped MOF-5 |
Co(Im)1.3(5-ClbIM)0.7 |
Co-(H2O)2[Ni(CN)4]*3H2O |
Co-BTTB-BPY |
Co-BTTB-DMBPY |
Co-DABCO |
Co-DMOF-TM |
Co-DOBDC |
Co-FA |
Co-HFMOF-D |
Co-MOF |
Co-MOF-5 |
Co-MOF-74 |
Co-MOF-74 (BSS) |
Co-MOF-74 (BSSP) |
CO-MOF-74 (Buch) |
Co-MOF-74 (DL) |
Co-MOF-74 with residual MeOH |
Co-MOF-74(M) |
Co-MOF-74(S) |
Co-NIC |
Co-POM/MIL-101 |
Co-Py2PO |
Co-SLUG-35 |
Co/NPC-600 |
Co/NPC-800 |
Co0.06Zn0.94(nim)2 |
Co100-MOF-74 |
Co14-MOF-74 |
CO2 Activated Bituminous |
Co2(4-Ptz)2(2-NH2-BDC)(DMA)]n |
Co2(BDC)2(DPNDO) |
Co2(BDC)2(DPNDO)-Channel |
Co2(dhtp) |
Co2(dobdc) |
Co2(NH2-BDC)1.5(L)(HCO2) solvent |
Co21-IRMOF-1 |
Co21-MOF-5 |
Co2L |
Co3(BTB)2(DMA)2 |
Co3(BTC)2 |
Co3(DPyP)3 4DMF |
Co3(HCOO)6 |
Co3(ndc)3(bbi)(CH3CN)2 |
Co3[(Co4Cl)3(BTT)8(H2O)12]2 |
Co3[(Mn4Cl)3(BTT)8]2*1.7CoCl2 |
Co3[Co(CN)6]2 |
Co50-MOF-74 |
Co50Zn-MOF-74 |
Co61-MOF-74 |
Co8-IRMOF-1 |
Co84Cu-MOF-74 |
Co9(btc)6(tpt)2(H2O)15] |
Coal |
Coal A |
Coal B |
Coal B2-10 |
Coal B2-11 |
Coal B4 |
Coal based steam activated carbon |
Coal based steam activated carbon (washed) |
Coal C3-2 |
Coal D3-3 |
Coal GHA1-09 |
Coal J10 |
Coal Norit |
Coal RU1 |
Coal W1 |
Coal-derived Activated Carbon |
coated HKUST-1 |
coated ZnBT |
Cobalt Triazolyl Phosphonate MOF |
Cobalt Triazolyl Phosphonate MOF (95%RH) |
Cobalt Triazolyl Phosphonate MOF (Activated at 403K) |
CoBTC |
CoC24O4N2H16 |
CoC24O4N2H16(4.5H2O) |
CoC6H3(COOH1/3)3(NC5H5)2.2/3NC5H5 |
Coconut based steam activated carbon |
Coconut based steam activated carbon (washed) |
COF-05 |
COF-1 |
COF-1 (9 A) |
COF-1-bridges-Pt/AC |
COF-10 |
COF-102 |
COF-102-2 |
COF-102-3 |
COF-102-4 |
COF-102-5 |
COF-102-Ant |
COF-102-Eth-trans |
COF-102-HEt |
COF-102-HiPr |
COF-102-HnHex |
COF-102-HPr |
COF-102-HtBu |
COF-102-Met-Met |
COF-103 |
COF-103-Eth-trans |
COF-103-Met-Met |
COF-105 |
COF-105 OLi |
COF-105-Eth-trans |
COF-105-Met-Met |
COF-108 |
COF-108-CH4 |
COF-108-CO2 |
COF-108-Met-Met |
COF-108-N2 |
COF-108-O2 |
COF-18A |
COF-202 |
COF-212 |
COF-366 |
COF-42 |
COF-43 |
COF-5 |
COF-6 |
COF-8 |
COF-NT |
COK-15 |
Coking Coal |
Combustor Soot |
COMOC-2 |
COMOC-2(V^IV) |
COMOC-2(V^IV/V^III) |
COMOC-3 |
CoMOF |
Composite C6-30 |
Composite C6-60 |
Composite C7-13 |
Composite C7-30 |
Composite C7-60 |
Composite C8-15 |
Composite C8-30 |
Composite C8-60 |
Compressed Exfoliated Graphite |
COOH-MIL-53 |
COOH-MIL-53(Al) |
Core-Shell IRMOF-2@MOF-5 |
Corrole |
Cosalen@MIL-100(Cr) |
COU-2 |
CoVSB-1 |
CoZn(DPB) activated |
CoZn(DPB) after compression at 0.2 MPa |
CoZn(DPB)after compression at 0.2 MPa |
CP 811C 300 |
CP 811E 150 |
CP 914C |
CPBUT |
CPF-1 |
CPF-13 |
CPGLY |
CPHEX |
CPL-1 |
CPL-11 |
CPL-2 |
CPL-201 |
CPL-5 |
CPM-12 |
CPM-13 |
CPM-15-Co |
CPM-15-Mg |
CPM-15-Ni |
CPM-19-Nd |
CPM-20 |
CPM-42 |
CPM-5 |
CPM-6 |
CPMEK |
CPO-26-Mg |
CPO-27(Ni) |
CPO-27-Co |
CPO-27-Co (10 A) |
CPO-27-Cu |
CPO-27-Fe |
CPO-27-Mg |
CPO-27-Mg(100%) |
CPO-27-Mg(16%) |
CPO-27-Mg(33%) |
CPO-27-Mg(50%) |
CPO-27-Mg(67%) |
CPO-27-Mg(83%) |
CPO-27-Mg-a |
CPO-27-Mg-b |
CPO-27-Mg-c |
CPO-27-Mn |
CPO-27-Ni |
CPO-27-Zn |
CPO-8-BPY |
CPO-8-BPY-150 |
CPO-8-DEF |
CPO-8-DPA |
CPO-8-DPA-150 |
CPO-8-DPE |
CPO-8-DPE-150 |
CPO-8-DPP |
CPO-8-DPP-150 |
CPP-6 |
CPP-7 |
CPP-8 |
CPPET94 |
CPS |
CPS-Cu10 |
CPS-Cu20 |
CPTHF |
CPTHF_re-activated_deg150 |
CPWAT |
Cr(OH)BDC |
Cr-BDC |
Cr-BTB |
Cr-MHz |
Cr-MIL(101) |
Cr-MIL-101 |
Cr-MIL-101(4-NIm) |
Cr-MIL-101-bipy |
Cr-MIL-101-NH2 |
Cr-MIL-101-NO2 |
Cr-MIL-101_amide |
Cr-MIL-101_urea |
Cr-MIL-53 |
Cr-MOF |
Cr-MOF fiber |
Cr-MOF fibers |
Cr-MOF nanocrystals |
Cr3(BTC)2 |
CrBDC |
CrBTC |
CrN11100 |
CrN11150 |
CrN1160 |
CrN12100 |
CrN12150 |
CrN1260 |
CrN21100 |
CrN21150 |
CrN2160 |
Crushed Luscar Coal |
Cs-rho-MOF |
Cs-usf-ZMOF |
Cs2[Cr3O-(OOCC2H5)6(H2O)3]2[alpha-SiW12O40]*4H2O |
CT |
Cu(1,3-BDC)(H2O) |
Cu(1,3-BDC)(PY)2 |
Cu(26NDC) nanosheet |
Cu(BDC) (60mL DMF 100W Microwave) |
Cu(BDC) (60mL DMF 300W Microwave) |
Cu(BDC) (87mL DMF 100W Microwave) |
Cu(BDC) (87mL DMF 300W Microwave) |
Cu(BDC-OH) |
Cu(BDT)(DMF) |
Cu(BDTri)(DEF) |
Cu(BF4)2(bpy)2 |
Cu(bpy)2(BF4)2 |
Cu(BTC)2 |
Cu(C10H6O6)(H2O)1.66H2O |
Cu(C3H3N2)2 |
Cu(C9H3N4O4)0.5(NO3)0.167(O2-)0.167(H2O)3.9 |
Cu(CO2R)4 |
Cu(dhbc)2(440-bpy) |
Cu(H2O)2[Pt(CN)4]*2H2O |
Cu(hfipbb)(H2hfipbb)0.5 |
Cu(int)2DMF |
Cu(OH)2 |
Cu(PyenH2)(NO3)2 |
Cu(tpa)*(dmf) |
Cu-(hfipbb)(H2hfipbb)0.5 |
Cu-3 |
Cu-4 |
Cu-BDC |
Cu-BTC |
Cu-BTC (diethylene glycol) |
Cu-BTC (ethylene glycol) |
Cu-BTC FMSA |
Cu-BTC GCMC |
Cu-BTC MFA |
Cu-BTC WDA-L |
Cu-BTC WDA-Y |
Cu-BTC-PF6-1 |
Cu-BTC-PF6-10% |
Cu-BTC-PF6-15 |
Cu-BTC-PF6-2 |
Cu-BTC-PF6-3 |
Cu-BTC-PF6-5% |
Cu-BTC-PF6-5%(exp) |
Cu-BTC-PF6-8 |
Cu-BTC-Tf2N-1% |
Cu-BTC-Tf2N-10 |
Cu-BTC-Tf2N-3 |
Cu-BTC-Tf2N-5% |
Cu-BTC-Tf2N-8 |
Cu-BTEC |
Cu-BTTri |
Cu-CHD |
Cu-DABCO |
Cu-DABCO-MOF |
Cu-DDQ |
Cu-DMOF-TM |
Cu-DOBDC (DREIDING Parameters-Universal Force Field + TraPPE Model) |
Cu-F-MOF-4B |
Cu-FDA-1 |
Cu-FDA-2a |
Cu-FDA-2b |
Cu-hfipbb |
Cu-HKUST-1 (DREIDING Parameters-Universal Force Field + TraPPE Model) |
Cu-IRMOF-1 |
Cu-Iso-MOF |
Cu-MCM-BTC |
Cu-MMOM |
Cu-MOF |
Cu-MOF (1st wash) |
Cu-MOF (3rd wash) |
Cu-MOF-1 |
Cu-MOF-2 |
Cu-MOF-5 |
Cu-MOF-74 |
Cu-MOF-CTAB |
Cu-MOF-CTAB (1st wash) |
Cu-MOF-NO3 |
Cu-MOF-P123 |
Cu-MOF-P123 (1st wash) |
Cu-MOF-P123 (3rd wash) |
Cu-MOF-SDS |
Cu-MOF-SiF6 |
Cu-MOF/MCF(M)-COOH |
Cu-PCN |
Cu-SAPO-34 |
Cu-SDU-1 |
Cu-SDU-1 (100 degrees C) |
Cu-SDU-1 (40 degrees C) |
Cu-SDU-1 (80 degrees C) |
Cu-SIP-3 |
Cu-SSZ13 |
Cu-TBA-1 |
Cu-TBA-2 |
Cu-TBA-2F |
Cu-TDPAT |
Cu-TDPAT and IRMOF-8 |
Cu-TEI |
Cu-TPBTM |
Cu/MIL-101(Cr) |
Cu/ZnO@MOF-5 |
Cu0.97Zn0.03(nim)2 |
Cu1.6Mn1.4[Co(CN)6]2 |
Cu2(BTC)3 |
Cu2(C6H4(PO3H)2)2(C2H4N4)2(H2O)3 |
Cu2(dhtp) |
Cu2(dobdc) |
Cu2(O2CH)4 |
Cu2(OH)(C8H3O7S)(H2O)2H2O |
Cu2(PDC)2 |
Cu2(phbpz)]*2DEF*MeOH |
Cu2(tptc) |
Cu2(TPTC-OEt) |
Cu2(TPTC-OMe) |
Cu2(TPTC-O^n Hex) |
Cu2(TPTC-O^n Pr) |
Cu2-Framework |
Cu2.3Mn0.7[Co(CN)6]2 |
Cu2C23H23NO14 |
Cu2Cl(OH)3 |
Cu2I2(BTTP4) |
Cu2L |
Cu2L2 |
Cu2L3 |
Cu2L^2 |
Cu2L^3 |
Cu2O |
Cu2V4O16-2D |
Cu2[Fe(CN)6] |
Cu3(btc)2(3-picolylamine)2 |
Cu3(btc)2(4-picolylamine)1.5 |
Cu3(btc)2(en)2.4 |
Cu3(btc)2/GO-h |
Cu3(btc)2/GO-l |
Cu3(btc)2/GO-m |
Cu3(BTC)2@TiO2 |
Cu3(cdm)4 |
Cu3(NH2btc)2 |
Cu3(TATAB)2(H2O)3*8DMF*9H2O-HBr |
Cu3(TATAB)2(H2O)3*8DMF*9H2O-HCl |
Cu3(TATAB)2(H2O)3*8DMF*9H2O-HF |
Cu3(TATB)2(H2O)3 |
Cu3[(Cu2.9Mn1.1Cl)3(BTT)8]2*2CuCl2 |
Cu3[Co(CN)6]*yH2O |
Cu3[Co(CN)6]2 |
Cu3[Fe(CN)6]*yH2O |
Cu3[Fe(CN)6]2 |
Cu3[Ir(CN)6]*yH2O |
Cu3[Ir(CN)6]2 |
Cu4(OH)2(C8H3O7S)2 |
Cu4Cl3(btt)8 |
Cu5[L2]2(H2O)6 |
Cu@MOF-177 |
Cu@MOF-5 |
CuAlF4.5(OH)0.5(H2O)[HAmTAZ]2 |
CuBDC |
CuBDC bulk |
CuBDC nanosheet |
CuBDP-C2H5 |
CuBDP-CH3 |
CuBDT |
CuBOTf |
CuBTB |
CuBTC |
CuBTC (AsH3 dry) |
CuBTC (AsH3 wet) |
CuBTC (H2S dry) |
CuBTC (H2S wet) |
CuBTC (Lamia) |
CuBTC (NH3 dry) |
CuBTC (Rubes) |
CuBTC 100/100 |
CuBTC 50/110 |
CuBTC 75/110 |
CuBTC 75/140 |
CuBTC 75/80 |
CuBTC Membrane |
CuBTC(Cu) |
CuBTC(Rubes) |
CuBTC*S12.5 |
CuBTC-At |
CuBTC-bridges-Pt/AC |
CuBTC-MW |
CuBTC-MW@H3PW12O40 |
CuBTC-P1000 |
CuBTC-P10000 |
CuBTC/CF |
CuBTC/GO |
CuBTC/GO-U1 |
CuBTC/GO-U2 |
CuBTC/GO-U3 |
CuBTC/Graphite Oxide |
CuBTC/Silica |
CuBTC@3pico |
CuBTC@4pico |
CuBTC@en |
CuBTT |
CuBTTri |
CuBTTri-mmen |
CuCl |
CuDABCO |
CuII {[Mg3(ndc)2.5(HCO2)2(H2O)][NH2Me2]2H2ODMF} |
CuIMFU-4l |
CUK-1 |
CUK-2 |
CuMG |
CuMG-n |
CuMGO |
CuMOF |
CuMOF-PI |
CuMOF-PI (ground) |
CuMOF-TBP |
CUP-1 |
CuSO4 |
CuTPA |
Cu[Pt(CN)6] |
CYCU-3 |
CYCU-4 |
Cys-MTV-MOF |
D-rGA |
DArE@PAF-1 1wt% |
DArE@PAF-1 1wt%(Photoswitched) |
DArE@PAF-1 20wt% |
DArE@PAF-1 20wt%(Photoswitched) |
DArE@PAF-1 50wt% |
DArE@PAF-1 50wt%(Photoswitched) |
DArE@PAF-1 5wt% |
DArE@PAF-1 5wt%(Photoswitched) |
DAT-MOF-1 |
DBT adsorbed Fe3O4@PAA@MOF-99(L) |
DBT-IFMC-16 |
DCPCBim-MOF-Zn |
DDR |
DEF-Derived IRMOF-1/MOF-177 |
Dehydrated MIL-53 |
Dehydrated PCN-13 |
Dehydrd-UiO-66 |
Dehydrd-UiO-66-Br |
Dehydrd-UiO-66-NH2 |
Dehydrd-UiO-66-NO2 |
Dehydroxylated UiO-66 |
Demineralized pyrolized coal steam activated for 10h |
Demineralized pyrolized coal steam activated for 5h |
Demo Zeolite 5A |
Demo ZIF-8 |
Desolvated C102H158O25N24F6Ni3 |
Desolvated C12H13CuN5O6 |
Desolvated C30H36Co2N2O16 |
Desolvated C35.50H31CoN3O9.50 |
Desolvated C4H4N6Cu |
Desolvated C76H56Cl4Hg4N20O8S4 |
Desolvated PCM-14a |
Desolvated PCN-13 |
Desolvated {[Mg(DHT)]2DMSO}n |
DETA-MIL-101 |
DiAmGND-bio-MOF-1 |
Diamond |
Diamond nanoparticles |
DiCH3-IRMOF-1 |
dmen-Mg2(dopdc) |
DMF |
DMF-Derived IRMOF-1/MOF-177 |
DMOF |
DMOF-1 |
DMOF-1-AM3 |
DMOF-1-AM5 |
DMOF-1-AMPh |
DMOF-1-bpdc |
DMOF-1-dcppy |
DMOF-1-NH2 |
DMOF-1-NHMe |
DMOF-1-NMe2 |
DMOF-10 |
DMOF-11 |
DMOF-12 |
DMOF-13 |
DMOF-14 |
DMOF-15 |
DMOF-2 |
DMOF-3 |
DMOF-4 |
DMOF-5 |
DMOF-6 |
DMOF-7 |
DMOF-8 |
DMOF-9 |
DMOF-A |
DMOF-Br |
DMOF-Cl2 |
DMOF-N |
DMOF-NO2 |
DMOF-OH |
DMOF-TM1 |
DMOF-TM2 |
DNL-6 |
Domestic Active Carbon |
Dop-MIL-101(Cr) |
Double Walled CNT r=2.5nm (epsilon=0.288 kJ/mol) |
Double Walled CNT r=2.5nm (epsilon=0.359 kJ/mol) |
Double Walled CNT r=2.5nm (epsilon=0.431 kJ/mol) |
Double Walled CNT r=2.5nm (sigma=0.306nm) |
Double Walled CNT r=2.5nm (sigma=0.340nm) |
Double Walled CNT r=2.5nm (sigma=0.374nm) |
Double Walled CNT r=2.5nm d=0.2nm |
Double Walled CNT r=2.5nm d=0.5nm |
Double Walled CNT r=2.5nm d=0nm |
Double Walled CNT r=2.5nm d=15nm |
Double Walled CNT r=2.5nm d=1nm |
Double Walled CNT r=2.5nm d=2nm |
Double Walled CNT r=2.5nm d=4nm |
Drierite |
Dry Activated Carbon F400 |
Dry Beulah Zap Coal |
Dry Coal |
Dry Pocahontas Coal |
Dry Upper Freeport Coal |
Dry Wyodak Coal |
DS-RF |
DS-RF-127 |
DS-RF-F127 |
DTHP673 |
DUT-10(Co) |
DUT-10(Cu) |
DUT-10(Zn) |
DUT-11 |
DUT-12 |
DUT-13 |
DUT-23(Co) |
DUT-23(Cu) |
DUT-23(Zn) |
DUT-24 |
DUT-25 |
DUT-4 |
DUT-49 |
DUT-5 |
DUT-5-dcppy |
DUT-6 |
DUT-67 |
DUT-7 |
DUT-7 (rac) |
DUT-8(Co) |
DUT-8(Cu) |
DUT-8(Ni) |
DUT-8(Ni) (10 cycles) |
DUT-8(Ni) (100 cycles) |
DUT-8(Ni) (10 cycles) |
DUT-8(Ni) (100 cycles) |
DUT-8(Zn) |
DUT-9 |
DUT-9-SCD |
DUT-90 |
DUT-91 |
DUT-95 |
Dy2Mn3(ndc)6(bipy)2 |
DynaMOF-100 |
E-ELM-11 |
e-Pt/AC_1 in IRMOF-8 |
e-Pt/AC_2 in Cu-TDPAT |
EcoSorb Activated Carbon |
ED-MIL-101 |
ED-sod-ZMOF |
ED-ZIF-8 |
eea-MOF-4 |
eea-MOF-5 |
ELM-11 |
ELM-11 (10 cycles) |
ELM-11 (100 cycles) |
EMI-TFSA@ZIF-8 |
EPI |
Epoxy Functionalized Graphite (20 Angstrom pore width) |
Epoxy Functionalized Graphite (9.2 Angstrom pore width) |
Er(BDC)1.5(DMF)(H2O) |
Er-Co |
Er2(BDC)3(DMF)2(H2O)2*H2O |
Er2(BDC)3(phen)2*3H2O |
Er2(BDC-F4)3(DMF)(H2O)*DMF |
Er2(TBDC)3(phen)2*4DMF*2H2O |
Et-MnCr |
ETS 10 (La/H) |
ETS-10 |
Eu+3@MIL-121 |
EU-1 |
Eu2(ADB)3(DMSO)4*6DMSO*8H2O |
Eu3+/Tb3+@Al-MIL-53-COOH |
Eu3+@Al-MIL-53-COOH |
Eu3+@{[NH2(CH3)2][Zn(atz)(ox)]$H2O}n |
Eu@446-MOF |
Eucalyptus Charcoal |
Eucalyptus Charcoal heated to 1023K |
Eucalyptus Charcoal heated to 1273K |
Eucalyptus Charcoal heated to 523K |
Eucalyptus Charcoal heated to 773K |
f Zn4O(TPB)4/3(BDC) |
F-MOF-4 |
F-MOF-6 |
F-Zn-CBTACN |
F1N9-CMS |
F300 |
F3N7-CMS |
F400 |
F5N5-CMS |
FAPO-5 |
FAU-Si |
Faujasite DAY |
Faujasite NaY |
Faujasite-Metglas Strip |
FCNF |
fcu-PTP |
fcu-TPT |
Fe(bdp) |
Fe(pz)-Ni(CN)4 |
Fe(pz)[Pt(CN)4] |
Fe-BTB |
Fe-BTC |
Fe-FDA |
Fe-IRMOF16 |
Fe-MIL-100 |
Fe-MIL-88B |
Fe-MOF |
Fe-MOF-5 |
Fe-MOF-74 |
Fe-PCN-223 |
Fe2(dobdc) |
Fe2(O2)(dobdc) |
Fe2@MIL-100(Fe) |
Fe2NiO(Piv)6(L)(H2O) |
Fe3O4 |
Fe3O4-Pyridine/CuBTC |
Fe3O4/CuBTC |
Fe3O4/CuBTC*H2Dz |
Fe3O4/MOFs |
Fe3O4@MIL-101 |
Fe3O4@PAA@MOF-199(L) |
Fe3O4@PAA@MOF-99(H) |
Fe3O4@SiO2-MIL-101 |
Fe3[(Fe4Cl)3(BTT)8(MeOH)4]2 |
Fe3[(Mn4Cl)3(BTT)8]2*FeCl2 |
Fe4(mu3-O)2(BTB)8/3(DMF)2(H2O)2*(DMF)10(H2O)2 |
FeBTC |
FeCID-1 |
FeCID-2 |
FeCID-5 |
FeCID-6 |
FeMGO |
FeMOF-74 |
Ferrerite |
FIR-12a-ht |
FIR-2-ht |
FIR-3a-ht |
FIR-3b-ht |
FIR-3c-ht |
FIR-4-ht |
FIR-4a-ht |
FIR-5-ht |
FIR-51 |
FIR-5a-ht |
FIR-6 |
FIR-7 |
FIR-7a-ht |
FIR-8a-ht |
FJI-1 |
FJI-2 |
FJI-3 |
FJI-C1 |
FJI-H5 |
FJI-H8 |
FJU-12a |
Fluka Charcoal |
FMOF-1 |
FMOF-2 |
FMOFCu |
FMOFZn |
ftw-Py-4TP |
Fullerene |
Fused-Silica Capillary |
Ga-BTB |
Ga-MIL-53 |
Ga-MIL-88B |
Ga3O15C24H15 |
Gamma-Al2O3 |
Gamma-Fe2O3/C-1 |
Gamma-Fe2O3/C-2 |
Gamma-Fe2O3/C-3 |
Gamma-Fe2O3/C-4 |
Gamma-Fe2O3/C-5 |
Gamma-Fe2O3/C-6 |
Gamma-Fe2O3/C-7 |
Gamma-Mg-(BH4)2 |
GaMOF-1 |
Gas Cylinder |
GB-e |
GB-i |
Gd-Co |
Gd-pDBI |
Gd2(ADB)3(DMSO)4*6DMSO*8H2O |
Gd2Cu(m-H2O)2(ip)4(CH3CH(NH3)CO2)2*H2O) |
gea-MOF-1 |
GEGZEY |
Glassy Carbon |
Glassy Carbon (pore = 0.35nm) |
Glassy Carbon (pore = 0.9nm) |
Glassy Carbon (pore = 1.6nm) |
Glassy Carbon (pore = 2.2nm) |
Glassy Carbon (pore = 2.6nm) |
Glassy Carbon (pore = 3nm) |
Glassy Carbon - CO2 activated |
Glassy Carbon - KOH activated |
GND-bio-MOF-1 |
GNP |
GO |
GO-BBF4/MOF-60 |
GO-TAC/MOF-30 |
GO-TAc/MOF-60 |
GO-TAc/MOF-90 |
GO-TBF4/MOF-60 |
GO-Ti |
GO-U1 |
GO-U2 |
GO-U3 |
GO/MIL-101 |
GO1 |
GO1-ED |
GO1-EM |
GO@Cd-PBM |
GOB-ED |
GOB-EM |
GOC16Si-1-823 |
GOC16Si-22-823 |
GOC16Si-6-823 |
GP-d |
Grade 03 Silica Gel |
Grafoil |
Graphene |
Graphene (interpore interaction) |
Graphene (no interpore interaction) |
Graphene Layer (100 Angstrom box length) |
Graphene Layer (150 Angstrom box length) |
Graphene Layer (60 Angstrom box length) |
Graphene Oxide heated to 353K |
Graphene Oxide heated to 373K |
Graphene Oxide heated to 393K |
Graphene Oxide Hydrogel heated to 353K |
Graphene Oxide Hydrogel heated to 373K |
Graphene Oxide Hydrogel heated to 393K |
Graphite |
Graphite (0.4-nm pore width) |
Graphite (0.6-nm pore width) |
Graphite (0.7-nm pore width) |
Graphite (0.8-nm pore width) |
Graphite (0.9-nm pore width) |
Graphite (1-nm pore width) |
Graphite (1.2-nm pore width) |
Graphite (1.5-nm pore width) |
Graphite (1.7-nm pore width) |
Graphite (2-nm pore width) |
Graphite (20 Angstrom pore width) |
Graphite (3-nm pore width) |
Graphite (6-nm pore width) |
Graphite (9-nm pore width) |
Graphite (9.2 Angstrom pore width) |
Graphite (pore width=10.82 Angstrom) |
Graphite (pore width=4.06 Angstrom) |
Graphite (pore width=4.40 Angstrom) |
Graphite (pore width=4.74 Angstrom) |
Graphite (pore width=5.07 Angstrom) |
Graphite (pore width=5.41 Angstrom) |
Graphite (pore width=5.92 Angstrom) |
Graphite (pore width=6.43 Angstrom) |
Graphite (pore width=6.77 Angstrom) |
Graphite (pore width=7.44 Angstrom) |
Graphite (pore width=7.95 Angstrom) |
Graphite (pore width=8.63 Angstrom) |
Graphite (pore width=9.30 Angstrom) |
Graphite (pore width=9.96 Angstrom) |
Graphite (slit pore width 1.2 nm) |
Graphite (slit pore width 2 nm) |
Graphite Atomistic Model |
Graphite HSAG-100 |
Graphite HSAG-300 |
Graphite Nanofibers |
Graphite Nanofibers - water washed |
Graphite Nanofibers etched at 1073K |
Graphite Nanofibers etched at 1073K - water washed |
Graphite Nanofibers etched at 1173K |
Graphite Nanofibers etched at 1173K - water washed |
Graphite Nanofibers etched at 1273K |
Graphite Nanofibers etched at 1273K - water washed |
Graphite Nanofibers etched at 973K |
Graphite Nanofibers etched at 973K - water washed |
Graphite Oxide |
Graphite Oxide Cu-BTC |
Graphite Oxide Cu-BTC (1st cycle) |
Graphite Oxide Cu-BTC (2nd cycle) |
Graphite Oxide Cu-BTC (3rd cycle) |
Graphite Oxide Cu-BTC (4th cycle) |
Graphite Oxide/Urea Cu-BTC 1 |
Graphite Oxide/Urea Cu-BTC 1 (1st cycle) |
Graphite Oxide/Urea Cu-BTC 1 (2nd cycle) |
Graphite Oxide/Urea Cu-BTC 1 (3rd cycle) |
Graphite Oxide/Urea Cu-BTC 1 (4th cycle) |
Graphite Oxide/Urea Cu-BTC 2 |
Graphite Oxide/Urea Cu-BTC 2 (1st cycle) |
Graphite Oxide/Urea Cu-BTC 2 (2nd cycle) |
Graphite Oxide/Urea Cu-BTC 2 (3rd cycle) |
Graphite Oxide/Urea Cu-BTC 2 (4th cycle) |
Graphite Oxide/Urea Cu-BTC 3 |
Graphite Oxide/Urea Cu-BTC 3 (1st cycle) |
Graphite Oxide/Urea Cu-BTC 3 (2nd cycle) |
Graphite Oxide/Urea Cu-BTC 3 (3rd cycle) |
Graphite Oxide/Urea Cu-BTC 3 (4th cycle) |
Graphite Powder |
Graphite Powder (18% weight loss after burning) |
Graphite Powder (51% weight loss after burning) |
Graphite Slit Pore |
Graphite(Ar milled) |
Graphite(O2 milled) |
Graphitised Thermal Carbon Black (OPLS-AA F=1.0 Atomistic) |
Graphitised Thermal Carbon Black (OPLS-AA F=1.0 Structure-less) |
Graphitised Thermal Carbon Black (OPLS-AA k=-0.06) |
Graphitised Thermal Carbon Black (TraPPE-EH F=0.9 Atomistic) |
Graphitised Thermal Carbon Black (TraPPE-EH F=0.9 Structure-less) |
Graphitised Thermal Carbon Black (TraPPE-EH F=1.0 Structure-less) |
Graphitised Thermal Carbon Black (TraPPE-UA k=-0.06) |
Graphitised Thermal Carbon Black (TraPPE-UA k=-0.12) |
Graphitised Thermal Carbon Black (TraPPE-UA) |
Graphitised Thermal Carbon Black (TraPPE-UA-9 F=0.9 Atomistic) |
Graphitised Thermal Carbon Black (TraPPE-UA-9 F=0.9 Structure-less) |
Graphitised Thermal Carbon Black (TraPPE-UA-9 F=1.0 Structure-less) |
Graphitized Carbon Black |
Graphitized Carbon Blacks |
Graphitized Thermal Carbon Black (finite pore) |
Graphitized Thermal Carbon Black (infinite pore) |
Graphitized Thermal Carbon Black (ksf=0) |
Graphitized Thermal Carbon Black (ksf=0.015) |
Graphitized Thermal Carbon Black (ksf=0.025) |
Graphon |
GX31 superactivated carbon (Method BC) |
GX31 superactivated carbon (Method DM-BC) |
GX31 superactivated carbon (Method DM-V) |
GX31 superactivated carbon (Method V) |
H(1)-PCN-125 |
H-BEA(174) |
H-BEA(5.0) |
H-BETA-12.5 |
h-C800 |
H-Chabazite |
H-DNL-6 |
H-FAU(2.9) |
H-FAU(47.5) |
H-FAU(6.8) |
H-MOR(10.3) |
H-MOR(91) |
H-MOR-45 |
H-SAPO-34 |
H-SSZ-13 |
H-USY |
H-USY-20 |
H-ZSM-5 |
H-ZSM-5 (Si/Al: 120) |
H-ZSM-5 (Si/Al: 20) |
H-ZSM-5 (Si/Al: 50) |
H-ZSM-5-12.5 |
H-ZSM-5-280 |
H-ZSM-5-30 |
H-ZSM-5-50 |
H-ZSM-5-80 |
H0.34Na0.06Al0.4Si47.6O96 |
H1/3[(Co^II13/2(BTB)4(OH)4/3(DMA)3]-2DMA-4H2O |
H2-Cr-MHz |
H2-V-Glycolate150 |
H2-V-Oxalate150 |
H2BpybcCl2 |
H2O treated coated HKUST-1 3d |
H2O treated HKUST-1 3d |
H2PtCl6 |
H36K3O59SiW12 |
H3N+-b-Ala(1)-Phg(2)-COO- |
H3N+-Phg(1)-b-Ala(2)-COO- |
H3pbc |
H3PW12O4/MIL-101 |
H3PW12O4/MIL-101-B |
H3[(Cu4Cl)3(BTTri)8(DMF)12]*7DMF*76H2O |
H3[(Cu4Cl)3(BTTri)8(en)5]*1.5PhMe |
H3[(Cu4Cl)3(BTTri)8(H2O)12]*72H2O |
H3[(Cu4Cl)3(BTTri)8(MeOH)12]*12MeOH*72H2O |
H3[(Cu4Cl)3(BTTri)8] |
H6P2W18O62/Cu3(BTC)2-10wt% |
H6P2W18O62/Cu3(BTC)2-20wt% |
H6P2W18O62/Cu3(BTC)2-30wt% |
H6P2W18O62/Cu3(BTC)2-40wt% |
H6P2W18O62@Cu3(BTC)2 |
HB-d |
HB-e |
HCC-1 |
HCC-2 |
HCM |
HCu[(Cu4Cl)3(btt)8]*3.5HCl |
Heat-Treated PVDC Carbon S850-1273K |
Heat-Treated PVDC Carbon S850-1473K |
Heat-Treated PVDC Carbon S850-1673K |
Hemin-MOF |
Hengevelde-I VI coal (dry) |
Hengevelde-I VI coal (moist) |
Hexaaminotriptycene 5 |
HF-HCl Residue Activated Carbon |
Hg2+-RuMOFs |
Hierarchical CuBTC |
Highly Graphitised Carbon Black |
His-MTV-MOF |
HiSiv 1000 |
HiSiv 3000 |
HiSiv 3000 Zeolite |
HKUST |
HKUST BM-0 |
HKUST BM-100 |
HKUST BM-250 |
HKUST-1 (0.5T) |
HKUST-1 (0T) |
HKUST-1 (1.5T) |
HKUST-1 (1T) |
HKUST-1 General Potential |
HKUST-1 loaded with 10mmol/g water |
HKUST-1 loaded with 16.2mmol/g water |
HKUST-1 loaded with 25.4mmol/g water |
HKUST-1 replica |
HKUST-1 Tuned Potential |
HKUST-1-F |
HKUST-1-F1 |
HKUST-1:Pt/AC |
HKUST-1@AC50 (0.5T) |
HKUST-1@AC50 (0T) |
HKUST-1@AC50 (1.5T) |
HKUST-1@AC50 (1T) |
HKUST-1@PS_33 |
HKUST-1@PS_50 |
HKUST-1@PS_63 |
HMn8O16 |
HMTI-1 |
HNU-1 |
HNUST-1 |
HNUST-2 |
HNUST-3 |
HNUST-4 |
Ho-PCP |
Holm-Oak Charcoal |
Holm-Oak Charcoal heated to 1023K |
Holm-Oak Charcoal heated to 1273K |
Holm-Oak Charcoal heated to 523K |
Holm-Oak Charcoal heated to 773K |
HP-e |
HP2MG |
HPW(20)C9H3FeO6 |
HPW(50)C9H3FeO6 |
HPW(80)C9H3FeO6 |
HPW/CuBTC |
HPW@MIL-101 |
Humic Coal |
HY |
HY-30 |
HY-5 |
HY-80 |
HyCOF-1 |
HyCOF-2 |
HyCOF-3 |
HyCOF-4 |
Hydrated Graphite (20 Angstrom pore width) |
Hydrated Graphite (9.2 Angstrom pore width) |
Hydrated MIL-53 |
Hydrazine Gel A100 |
Hydrazine Gel A150 |
Hydrazine Gel B100 |
Hydrazine Gel B150 |
Hydrazine Gel C100 |
Hydrazine Gel C150 |
Hydrazine Gel D100 |
Hydrazine Gel D150 |
Hydrd-UiO-66 |
Hydrd-UiO-66-Br |
Hydrd-UiO-66-NH2 |
Hydrd-UiO-66-NO2 |
Hydrogen and Heat Treated Graphite (HYG1000) |
Hydrogen and Heat Treated Graphite (HYG500) |
Hydrogen Treated Graphite (HYG25) |
Hydroxyl Functionalized Graphite (20 Angstrom pore width) |
Hydroxyl Functionalized Graphite (9.2 Angstrom pore width) |
Hydroxylated UiO-66 |
Hydroxyl_Carbonyl Functionalized Graphite (20 Angstrom pore width) |
Hydroxyl_Carbonyl Functionalized Graphite (9.2 Angstrom pore width) |
Hypercrosslinked Polymer |
Hypothetical Microporous Adsorbent |
HZSM-5 |
H[Ce(H2O)4]2[MnV13O38]*9NMP*17H2O |
H[Cu(CH3OH)6][(Cu4Cl)3(btt)8-(H2O)12]*3.5HCl*36CH3OH |
H[Cu(dmf)6][(Cu4Cl)3(btt)8(H2O)12]*3.5HCl*12H2O*16CH3OH |
H[La(H2O)4]2[MnV13O38]*8NMP*9H2O |
H[La(H2O)4]2[MnV13O38]*9NMP*17H2O |
I-MOF |
IBU/Zn2(bdc)2(dabco) |
IFMC-1 |
IFMC-15 |
IFMC-16 |
IFMC-6 |
IFMC-68 |
IFMC-69 |
IFMC-7 |
IFMC-8 |
IFP-7 |
IL/IRMOF-1 |
ILCOF-1 |
Illinois No. 6 Coal |
IM-19 |
IMBZCN |
IMBZNH2 |
IMP-10 |
IMP-12 |
IMP-13Co |
IMP-13Mg |
IMP-14 |
IMP-8Cd |
IMP-8Mn |
IMP-9 |
In-BPnDC |
In-MIL-68(10:5) |
In-MIL-68(2:13) |
In-MIL-68(3.5:11.5) |
In-MIL-68(5:10) |
In-MIL-68(6.5:8.5) |
In-MIL-68(7.5:7.5) |
In-MIL-68(hexagonal rods) |
In-MIL-68(spheres) |
In-MIL-88B |
In-MOF |
In-soc-MOF |
In-soc-MOF (1 blocked) |
In-soc-MOF (2 blocked) |
In-soc-MOF (3 blocked) |
In-soc-MOF (BSS) |
In-soc-MOF (BSSP) |
In-soc-MOF (Buch) |
In3O15.5C25.5H12N0.5 |
Individual SWNT |
Inf-3[Cu-Me-4py-trz-ia] |
Infinite Double Buckytube 4.78 nm |
InH(D-C10H14O4)2 |
Inner Double Walled CNT r=2.5nm d=0.2nm |
Inner Double Walled CNT r=2.5nm d=0.5nm |
Inner Double Walled CNT r=2.5nm d=0nm |
Inner Double Walled CNT r=2.5nm d=15nm |
Inner Double Walled CNT r=2.5nm d=1nm |
Inner Double Walled CNT r=2.5nm d=2nm |
Inner Double Walled CNT r=2.5nm d=4nm |
InOF-1 |
InOF-2 |
InOF-2-Li+ |
Int-SWCNT |
Interpenetrated-MOFMC-meso |
IPr-Chir-UMCM-1 |
Ir NPs@ZIF-8 |
IRH-33 |
IRMOF (catenated) |
IRMOF (N subsituted) |
IRMOF-0h |
IRMOF-1 |
IRMOF-1(CSA)@UTCS@SiO2 |
IRMOF-1+5WT% ENG |
IRMOF-1-(NH2)4 |
IRMOF-1-1Li |
IRMOF-1-2Li |
IRMOF-1-4d |
IRMOF-1-4Li |
IRMOF-1-AH |
IRMOF-1-AHI |
IRMOF-1-AI |
IRMOF-1-chem2Li |
IRMOF-1-CSA |
IRMOF-1-EHI |
IRMOF-1-EI |
IRMOF-1-GO1 |
IRMOF-1-GO2 |
IRMOF-1-GO3 |
IRMOF-1-H |
IRMOF-1-H2O |
IRMOF-1-P1 |
IRMOF-1-P2 |
IRMOF-1-P3 |
IRMOF-1-P4 |
IRMOF-1/2Cu(I) |
IRMOF-1/3Cu(I) |
IRMOF-1/4Cu(I) |
IRMOF-1/AGO-O |
IRMOF-1/Cu(I) |
IRMOF-1/ENG |
IRMOF-1/GO |
IRMOF-1/GO-H |
IRMOF-10 |
IRMOF-10-NH2 |
IRMOF-105 |
IRMOF-108 |
IRMOF-10Br-(pos2) |
IRMOF-10Br-(pos3) |
IRMOF-10NH2-(pos2) |
IRMOF-10NH2-(pos3) |
IRMOF-11 |
IRMOF-12 |
IRMOF-13 |
IRMOF-14 |
IRMOF-14 SO3H |
IRMOF-14 SO3Li |
IRMOF-15 |
IRMOF-16 |
IRMOF-177 |
IRMOF-18 |
IRMOF-2 |
IRMOF-2-24 |
IRMOF-2-24-Li |
IRMOF-2-42 |
IRMOF-2-42-Li |
IRMOF-2-54 |
IRMOF-2-54-Li |
IRMOF-2-60 |
IRMOF-2-60-Li |
IRMOF-2-96 |
IRMOF-2-96-Li |
IRMOF-2-Br |
IRMOF-2-Cl |
IRMOF-2-F |
IRMOF-2-I |
IRMOF-20 |
IRMOF-3 |
IRMOF-3-AM5 |
IRMOF-3-AMPh |
IRMOF-3-NH |
IRMOF-3-NH2 |
IRMOF-3-O |
IRMOF-3-OH |
IRMOF-3-PI |
IRMOF-3-PI-Cu |
IRMOF-3-PI-Pd |
IRMOF-3-Pr'(OP) |
IRMOF-3-Pr(OP) |
IRMOF-3-S |
IRMOF-3-SH |
IRMOF-3-URPh |
IRMOF-3b |
IRMOF-3beta |
IRMOF-3c |
IRMOF-4 |
IRMOF-5 |
IRMOF-6 |
IRMOF-61 |
IRMOF-62 |
IRMOF-7 |
IRMOF-8 |
IRMOF-8+PMN |
IRMOF-8-6Li |
IRMOF-8-NO2 |
IRMOF-9 |
IRMOF-992 |
IRMOF-993 |
IRMOF-993) |
IRMOF-9M (mixed ligand) |
IRMOF-M0 |
IRMOF-M1 |
IRMOF-M10 |
IRMOF-M11 |
IRMOF-M12a |
IRMOF-M12b |
IRMOF-M13 |
IRMOF-M1a |
IRMOF-M1b |
IRMOF-M2 |
IRMOF-M2a |
IRMOF-M2b |
IRMOF-M2c |
IRMOF-M3 |
IRMOF-M3a |
IRMOF-M3b |
IRMOF-M3c |
IRMOF-M3d |
IRMOF-M4 |
IRMOF-M4a |
IRMOF-M4b |
IRMOF-M5 |
IRMOF-M6 |
IRMOF-M6a |
IRMOF-M6b |
IRMOF-M7 |
IRMOF-M7) |
IRMOF-M8 |
IRMOF-M9 |
IRMOF16 |
ISE-1 |
ITF-1 |
ITQ-29 |
ITQ-37 |
ITQ-4 |
Janus IRMOF-2@MOF-5 |
Janus MOF-5@IRMOF-2 |
JBW |
JLU-Liu1 |
JLU-Liu2 |
JLU-Liu2-en |
Joppe-I IV coal (dry) |
Joppe-I IV coal (moist) |
Joppe-I IX coal (dry) |
Joppe-I IX coal (moist) |
Joppe-I VI coal (dry) |
Joppe-I VI coal (moist) |
JUC-100 |
JUC-103 |
JUC-105 |
JUC-110 |
JUC-120 |
JUC-132 |
JUC-135 |
JUC-48 |
JUC-77 |
JUC-99 |
K-C60-NaY |
K-CD-MOF |
K-CHA |
K-COU-2 |
K-KFL |
K-PAF-1-500 |
K-PAF-1-600 |
K-PAF-1-750 |
K-rho-MOF |
K-usf-ZMOF |
K-ZIF-68 |
K-ZIF-69 |
K-ZIF-70 |
K-ZIF-78 |
K-ZIF-79 |
K1.5H1.5[Cr3O(OOCCH3)6(H2O)3][alpha-GeW12O40]*9.5H2O |
K2Mg(H2O)2(C8H4O8) |
K2[Cr3O-(OOCH)6(4-etpy)3]2[alpha-SiW12O40]*2H2O |
K6Na6Al12O48 |
Kaolinite |
KC24 |
KC24 Activated Carbon |
KCl |
Kgm-MOF |
KH |
KH2[Cr3O(OOCCH3)6(H2O)3][alpha-GeMo12O40]*10H2O |
KIT-6 Silica |
KOH Activated Anthracite 1 |
KOH Activated Anthracite 2 |
KOH Activated Anthracite 3 |
KT Activated Carbon |
L-DNL-6 |
L-MOF |
L493 |
L6-L1 |
L6-L3 |
La(H5DTMP) |
La-Co |
La-PCP |
La/ZIF-8 |
La2Cu |
Lanthanum Triazolyl Phosphonate MOF |
LEV |
Lewiston-Stockton Coal |
Li+-MIL-101(Cr) |
Li-A |
Li-BEA(5.0) |
Li-C60@IRMOF-10 |
Li-C60@Li-IRMOF-10 |
Li-CHA |
Li-COF-102 |
Li-COF-103 |
Li-COF-105 |
Li-COF-108 |
Li-CuBTC |
Li-doped COF-102 |
Li-doped COF-103 |
Li-doped COF-105 |
Li-doped COF-108 |
Li-doped COF-202 |
Li-doped Corrole |
Li-doped Pc-PBBA COF |
Li-FAU(1.0) |
Li-FAU(2.7) |
Li-FAU(2.9) |
Li-FAU(47.5) |
Li-FAU(6.8) |
Li-IRMOF-1 |
Li-IRMOF-10 |
Li-IRMOF-12 |
Li-IRMOF-14 |
Li-KFL |
Li-LSX |
Li-MFI(12) |
Li-MIL-101(Cr) |
Li-MOF-5 |
Li-MOF-C10 |
Li-MOF-C16 |
Li-MOF-C22 |
Li-MOF-C30 |
Li-MOF-C6 |
Li-MOF16 |
Li-MOR(10.3) |
Li-MOR(8.9) |
Li-MOR(91) |
Li-Rho-ZMOF |
Li-SAPO-34 |
Li-UPC-5 |
Li-usf-ZMOF |
Li-ZIF-68 |
Li-ZIF-69 |
Li-ZIF-70 |
Li-ZIF-78 |
Li-ZIF-79 |
Li-Zn-MOF |
Li3.2Mn1.4[(Mn4Cl)3(BTT)8]2*0.4LiCl |
LiAlH4 |
LiBH4 |
LiC18 Activated Carbon |
LIFM-10(Cu) |
LIFM-11(Cu) |
Lignite |
LiH |
Limestone |
LiZnC9H3O6 |
Li_C20-COF |
Li_C24-COF |
Li_C26-COF |
Li_C28-COF |
Li_C30-COF |
Li_C36-COF |
Li_C60-COF |
Li_C70-COF |
LJ+P-MOF |
LJ-MOF |
Long Flame Coal |
LOV |
LTA-1 |
LTA-2 |
LTA-3.5 |
LTA-5 |
LTA-5A |
LTA-SiO2 |
Luscar Coal |
M'MOF 1 |
M'MOF-20a |
M'MOF-4a |
M'MOF-5a |
M'MOF-6a |
M'MOF-7a |
M-CuBTC |
M-DNL-6 |
M-DUT-4 |
M-DUT-5 |
M-MOF-177 |
M-PCM-18 |
m-TiBDC |
M-ZPM |
M41S AM1 |
M41S AM2 |
M41S AM3 |
M4O(CO2R)6 |
Ma |
MA-650 |
MA-900 |
Ma/Mg |
MAF-3 |
MAF-4 |
MAF-49 |
MAF-66 |
MAF-X8 |
MAMS-1 |
MAMS-2 |
MAMS-2(Zn) |
MAMS-3 |
MAMS-4 |
MAMS-4(Cu) |
mand-DUT-25 |
Matrimid |
Matrimid-10% ZIF-8 |
Matrimid-20% ZIF-8 |
Matrimid-30% ZIF-8 |
Matrimid-40% ZIF-8 |
MAXSORB |
Maxsorb II |
Maxsorb III |
Maxsorb MSC-30 |
Mb@Tb-mesoMOF |
MBS |
MCC-10 |
MCC-4 |
MCC-6 |
MCC-8 |
MCF Chemisorbent |
MCF(M)-COOH |
MCF-19 |
MCF-32 |
MCF-38 |
MCM-41 |
MCM-41-aminopyridine |
MCM-41-guanidine |
MCM-41-methylaminopyridine |
MCM-41-N2 |
MCM-41-N3 |
MCM-41-NH2 |
MCM-48-ls |
MCM22 |
MCOF-1 |
MCoS-1 |
MDC-1 |
MDC-3 |
MDC-8 |
Me-FeCr |
Meager Coal |
MEN-CuBTTri |
MesoMOF-1 |
Mesoporous Carbon |
Mesoporous silica nanoparticles |
Methanol-SWCNT |
MFI |
MFU-1 |
MFU-4 |
MFU-4l |
Mg |
Mg MOF-74 |
Mg(C5H6O4) |
Mg(H2O)(C4H4O5)*H2O |
Mg(H2O)2(C4O4) |
Mg(HCO2)2 |
Mg(OOCH)2 |
MG-1 |
MG-2 |
MG-3 |
MG-4 |
MG-5 |
Mg-A |
MG-A-900 |
MG-B |
MG-B-900 |
Mg-C60@IRMOF-10 |
Mg-C60@IRMOF-8 |
Mg-CPO-27 |
Mg-DOBAC |
Mg-DOBDC |
Mg-Formate |
MG-G0 |
MG-G1 |
MG-G2 |
MG-G3 |
MG-G4 |
MG-Gd-pDBI |
Mg-IRMOF-1 |
Mg-MCM-48-ls |
Mg-MOF |
Mg-MOF-1 |
Mg-MOF-74 |
Mg-MOF-74 (3) |
Mg-MOF-74 (4) |
Mg-MOF-74 (Mason et al.) |
Mg-MOF-74 (model 1) |
Mg-MOF-74 (model 3) |
Mg-MOF-74 (UFF) |
Mg-MOF-74(C) |
Mg-MOF-74(C)-TEA |
Mg-MOF-74(S) |
Mg-MOF-74@MR |
Mg-MOF-74@MR(1 day after relaxation) |
Mg-MOF-74@MR(2 days after relaxation) |
Mg-MOF-74@MR(3 days after relaxation) |
Mg-MOF-74@MR(Irradiated 1 hour) |
Mg-MOF-74@MR(Irradiated 30 minutes) |
Mg-MOF-74@MR(Irradiated for 2 hours) |
Mg-MOF-74@MR(Photoswitchg 1 hour) |
Mg-MOF-74@MR(Photoswitching for 30 min |
Mg-MOF-74@SBA-15 (1') |
Mg-MOF-74@SBA-15(1') |
Mg-MOF-74@SBA-15(2') |
Mg-MOF16 |
Mg-MOF74 |
Mg-MOF74@SBA-15 (1') |
Mg-MOF74@SBA-15 (2') |
Mg-rho-MOF |
Mg-Rho-ZMOF |
Mg-SBA-15 |
Mg-SBA-16 |
Mg-usf-ZMOF |
Mg-X |
Mg/K-MCM-48-ls |
Mg/K-SBA-15 |
Mg/K-SBA-16 |
Mg/MOF-74 |
MG1 |
MG2 |
Mg2(dhtp) |
Mg2(dobdc) |
Mg2(dobpdc) |
Mg2(dobpdc)(mmen)1.6(H2O)0.4 |
Mg2-(dobdc) |
Mg2L |
Mg2Li(BTC) (HBTC)(DMF)2 |
MG3 |
Mg3(BPT)2(H2O)4 |
MG4 |
Mg48X |
MgBTT |
MgH2 |
MgMOF-74 |
MgO |
MGr |
MgX |
MI-101(Cr) |
MICN |
Micro Crystalline Graphite |
micro-Co-MOF |
Micro-Co-MOF |
Microporous Active Carbon |
Microporous Carbon (.23) |
Microporous Carbon (.24) |
Microporous Carbon (.26) |
Microporous Carbon (.27) |
Microporous Carbon (.29) |
Microporous Carbon (.36) |
Microporous Carbon (.47) |
Microporous Carbon (.54) |
MIL |
MIL-100 |
MIL-100(Al) |
MIL-100(Al) Aerogel |
MIL-100(Al) Xerogel |
MIL-100(Al)+Pd |
MIL-100(Cr) |
MIL-100(Cr)-DEG |
MIL-100(Cr)-DMF |
MIL-100(Cr)-EG |
MIL-100(Cr)-EN |
MIL-100(Cr)-TEG |
MIL-100(Fe) |
MIL-100(Fe)-granule |
MIL-100(Fe)-powder |
MIL-100(Fe)_F1 |
MIL-100(Fe)_F2 |
MIL-100(Fe)_NF |
MIL-100(Sc) |
MIL-100(Sc50Fe50)XS |
MIL-100(Sc60Fe40)XS |
MIL-100(Sc80Fe20)XS |
MIL-100(Sc90Fe10)XS |
MIL-100(V) |
MIL-100(V)_1 |
MIL-100(V)_2 |
MIL-100-Cr |
MIL-100-Fe |
MIL-100-Fe/Cu+(H) |
MIL-100-Fe/Cu+(L) |
MIL-100-Fe/Cu+(M) |
MIL-101 |
MIL-101 (Cr) |
MIL-101 Activated |
MIL-101(Al) |
MIL-101(Al)-NH2 |
MIL-101(Cl@Cr) |
MIL-101(Cr) |
MIL-101(Cr) monolith - Run 1 |
MIL-101(Cr) powder - Run 1 |
MIL-101(Cr) powder - Run 2 |
MIL-101(Cr)-150nm |
MIL-101(Cr)-150nm-PEI-10000 |
MIL-101(Cr)-150nm-PEI-1800 |
MIL-101(Cr)-150nm-PEI-300 |
MIL-101(Cr)-250nm |
MIL-101(Cr)-250nm-PEI-300 |
MIL-101(Li) |
MIL-101(Sc) |
MIL-101(V) |
MIL-101-A |
MIL-101-A(Li) |
MIL-101-A1 |
MIL-101-A2 |
MIL-101-A3 |
MIL-101-A4 |
MIL-101-A5 |
MIL-101-A6 |
MIL-101-B |
MIL-101-B(Li) |
MIL-101-B1 |
MIL-101-B2 |
MIL-101-bipy |
MIL-101-Br |
MIL-101-bridges-Pt/AC |
MIL-101-C |
MIL-101-C1 |
MIL-101-C2 |
MIL-101-CH3 |
MIL-101-Cl |
MIL-101-CN |
MIL-101-Cr-SO3H |
MIL-101-Cr-SO3H.Al(III) |
MIL-101-D |
MIL-101-dabco |
MIL-101-Mo6Br8F6 |
MIL-101-N(n-Bu)3Br |
MIL-101-NH2 |
MIL-101-NO2 |
MIL-101-P(n-Bu)3Br |
MIL-101-pyz |
MIL-101-SO3H |
MIL-101-SO3Na(H) |
MIL-101-SO3NaH |
MIL-101@SWNT-10 WT% |
MIL-101@SWNT-6 WT% |
MIL-101@SWNT-8 WT% |
MIL-101a |
MIL-101b |
MIL-101c |
MIL-101Cr |
MIL-101F- |
MIL-101Fe |
MIL-101FF(Cr) |
MIL-101H2O |
MIL-101TM |
MIL-102 |
MIL-10O(Fe)_F2 |
MIL-110(Al) |
MIL-117 |
MIL-120 |
MIL-121 |
MIL-125 |
MIL-125 Synthesized with .15 CTAB |
MIL-125 Synthesized with .3 CTAB |
MIL-125 Synthesized with .45 CTAB |
MIL-125 Synthesized with |
MIL-125(Ti) |
MIL-125-NH2 |
MIL-126 |
MIL-140(Zr)-A |
MIL-140A |
MIL-140A-F |
MIL-140A-NH2 |
MIL-140B |
MIL-140C |
MIL-140C-25 |
MIL-140C-Me |
MIL-140D |
MIL-141(Cs) |
MIL-150 |
MIL-160 |
MIL-163 |
MIL-47 |
MIL-47(V) |
MIL-47-V |
MIL-53 |
MIL-53 (10 cycles) |
MIL-53 (100 cycles) |
MIL-53 (Cr)-lp |
MIL-53(Al) |
MIL-53(Al) (2 NaOH+H2BDC 298) |
MIL-53(Al) (493) |
MIL-53(Al) (50%) |
MIL-53(Al) (Na2BDC 298) |
MIL-53(Al) Dehydrated |
MIL-53(Al)) |
MIL-53(Al)-A(Li) |
MIL-53(Al)-B(Li) |
MIL-53(Al)-F127 |
MIL-53(Al)-NH2 |
MIL-53(Al)-NH2 Dehydrated |
MIL-53(Al)-OH Dehydrated |
MIL-53(Al)-type A |
MIL-53(Al)-type B |
MIL-53(Al)-type C |
MIL-53(Al)-type D |
MIL-53(Al)/GNP 10% |
MIL-53(Al)/GNP 2.5% |
MIL-53(Al)/GNP 5% |
MIL-53(Al)@MR 15wt% |
MIL-53(Al)@MR 15wt%(Irradiated) |
MIL-53(Al)@MR 15wt%(Relaxed) |
MIL-53(Al)@MR 50wt% |
MIL-53(Al)@MR 50wt%(Irradiated) |
MIL-53(Al)@MR 50wt%(Photoswitched) |
MIL-53(Al)ht |
MIL-53(Al)it |
MIL-53(Al)lp |
MIL-53(Al)np |
MIL-53(Al)sol.ht |
MIL-53(Cr) |
MIL-53(Cr)-lp |
MIL-53(Cr)] |
MIL-53(Cr-Fe) |
MIL-53(Cr/Fe) |
MIL-53(Cu) |
MIL-53(Fe) |
MIL-53(Fe)-(COOH)2 Dehydrated |
MIL-53(Fe)-4H |
MIL-53(Fe)-Br |
MIL-53(Fe)-CH3 |
MIL-53(Fe)-Cl |
MIL-53(Fe)-NH2 |
MIL-53(Ga) |
MIL-53(Sc) |
MIL-53(V) |
MIL-53-Al |
MIL-53-BNHx |
MIL-53-Cr |
MIL-53-Cu |
MIL-53C |
MIL-53HP |
MIL-53LP |
MIL-53lp (Al) |
MIL-53np (Al) |
MIL-53S |
MIL-56(Cr) |
MIL-68 |
MIL-68(Al) |
MIL-68(Fe) |
MIL-68(Ga) |
MIL-68(In) |
MIL-68(In)-NH2 |
MIL-68(Sc) |
MIL-68-NH2 |
MIL-69 |
MIL-88 |
MIL-88A |
MIL-88B |
MIL-88B(Cr) |
MIL-88B(Sc) |
MIL-88B(V) |
MIL-88B-2CF3 |
MIL-88B-4CH3 |
MIL-88B-Br |
MIL-88B-NH2(Cr) |
MIL-88C |
MIL-88D(Sc) |
MIL-91(Al) |
MIL-91(Al)-first cycle |
MIL-91(Al)-second cycle |
MIL-91(Al)-third cycle |
MIL-96 |
MIL-96(In) |
MIL-96-A1 |
MIL-96-A2 |
MIL-96-A3 |
MIL-96-M1 |
MIL-96-M2 |
MIL-96-M3 |
MIL-CPE |
MIL-ED |
MIL-EM |
MIL-GO1 |
MIL-GO1-ED |
MIL-GO1-EM |
MIL-GO10 |
MIL-GO1d-ED |
MIL-GO2 |
MIL-GO2-ED |
MIL-GO2-EM |
MIL-GO20 |
MIL-GO2d-ED |
MIL-GO5 |
MILd-ED |
MIN-PFA |
Min-U-Sil 30 |
MIXMOF |
MMC-3 |
MMC-4 |
MMC-5 |
MMC-6 |
MMCF-1 |
MMEN-CuBTTri |
mmen-Mg2(dobpdc) |
MMPF-3 |
MMPF-7 |
MMPF-8 |
MMPN |
MMSs |
Mn(BDC)(PNO) |
Mn(h2-H2)Cl(CO)4 |
Mn(HCO2)2 |
Mn(II)SO-MOF |
Mn(III)-porphyrin/In(III) |
Mn(III)SO-MOF |
Mn-BTT |
Mn-DOBDC |
Mn-FA |
Mn-HFMOF-D |
Mn-MIL-100 |
Mn-MIL-100 (EtOH +MeOH-washed) |
Mn-MIL-100 (EtOH-washed) |
Mn-MOF |
Mn-MOF-74 |
Mn-MOF-74 with residual MeOH |
MN170 |
Mn2(dhtp) |
Mn2(dobdc) |
MN200 |
MN270 |
MN270-6wt%Pt |
MN270-Bridged |
Mn2L |
Mn3(HCOO)6 |
Mn3Co2 |
Mn3[(Mn4Cl)3(BTT)8(CH3OH)10]2 |
Mn3[(Mn4Cl)3(BTT)8]2*0.75CuPF6 |
Mn3[(Mn4Cl)3(btt)8]2*20CH3OH |
Mn3[(Mn4Cl)3(BTT)8]2^8 |
Mn3[Co(CN)6]2 |
Mn48X |
Mn48X-C6H6(l) |
Mn48X-C6H6(p) |
Mn4Cl-MOF |
MnC12H6O4 |
MnO2 |
MNS-Activated Carbon 400-900-15 |
MNS-Activated Carbon 400-900-30 |
MNS-Activated Carbon 400-900-60 |
MNS-Activated Carbon 500-900-15 |
MNS-Activated Carbon 500-900-30 |
MNS-Activated Carbon 500-900-60 |
MNS-Activated Carbon 600-900-15 |
MNS-Activated Carbon 600-900-30 |
MNS-Activated Carbon 600-900-60 |
MNS-Activated Carbon 700-900-15 |
MNS-Activated Carbon 700-900-30 |
MNS-Activated Carbon 700-900-60 |
MNS-Activated Carbon A |
MNS-Activated Carbon B |
Mo-AMP-Cu-BTC |
Mo-Sal-AMP-Cu-BTC |
Mo3(BTC)2 |
MOCP-L |
Model MOF |
Modified Matrimid |
Modulated Zr-MOF-MW |
Modulated Zr-MOF-Oven |
MOF |
MOF 1 |
MOF Cu-ABTA |
MOF I |
MOF II |
MOF Manganese(II)-formate |
MOF [Cu(tzbc)2] |
MOF(Fe/Co) |
MOF-01 |
MOF-1 |
MOF-10 |
MOF-100T |
MOF-114 |
MOF-115 |
MOF-116 |
MOF-117 |
MOF-118 |
MOF-119 |
MOF-120 |
MOF-130T |
MOF-14 |
MOF-14 (1) |
MOF-14 (2) |
MOF-14 (3) |
MOF-14 (4) |
MOF-143 |
MOF-15 |
MOF-16 |
MOF-177 |
MOF-177-15Li |
MOF-180 |
MOF-199 |
MOF-199/GO |
MOF-1c |
MOF-1C' |
MOF-1C'-Li |
MOF-1M' |
MOF-1M'-Li |
MOF-2 |
MOF-2' |
MOF-2'-Li |
MOF-200 |
MOF-200-27Li |
MOF-205 |
MOF-205-NH2 |
MOF-205-NO2 |
MOF-205-OBn |
MOF-210 |
MOF-216 |
MOF-222 |
MOF-235 |
MOF-236 |
MOF-253 |
MOF-253-900 |
MOF-254 |
MOF-2B-Sc2 |
MOF-2B-Sc2-10H2 |
MOF-2B-Sc2-2H2 |
MOF-2B-Sc2-4H2 |
MOF-2B-Sc2-6H2 |
MOF-2B-Sc2-8H2 |
MOF-3 |
MOF-30 |
MOF-324 |
MOF-326 |
MOF-36 |
MOF-388 |
MOF-39 |
MOF-399 |
MOF-4 |
MOF-401 |
MOF-5 (1.5 hours activated) |
MOF-5 (Na2BDC 298) |
MOF-5 (Na2BDC 373) |
MOF-5-.5h in humid air |
MOF-5-2-SBA-15 |
MOF-5-24h in humid air |
MOF-5-2h in humid air |
MOF-5-40h |
MOF-5-48h in humid air |
MOF-5-61% humidity |
MOF-5-61% humidity-exposedtoair.5h |
MOF-5-61% humidity-exposedtoair24h |
MOF-5-61% humidity-exposedtoair2h |
MOF-5-61% humidity-exposedtoair48h |
MOF-5-61% humidity-exposedtoair66h |
MOF-5-66h in humid air |
MOF-5-Ben |
MOF-5-BPO |
MOF-5-BPO (cBPO = .04 M) |
MOF-5-BPO (cBPO = .06 M) |
MOF-5-C |
MOF-5-Cd |
MOF-5-CH3 |
MOF-5-CN |
MOF-5-H2O2 |
MOF-5-H40 |
MOF-5-int |
MOF-5-NH2 |
MOF-5-NO2 |
MOF-5-NO2-Cl |
MOF-5-NO2-NH2 |
MOF-5-NP |
MOF-5-Ozn |
MOF-5-SBA-15 |
MOF-5-Zn |
MOF-5/GO |
MOF-505 |
MOF-508 |
MOF-508a |
MOF-508b |
MOF-50T |
MOF-519 |
MOF-520 |
MOF-5_DMF |
MOF-5_NMP |
MOF-5_NMP-D |
MOF-5_NMP-N |
MOF-601 |
MOF-602 |
MOF-603 |
MOF-604 |
MOF-645 |
MOF-646 |
MOF-647A |
MOF-647B |
MOF-648 |
MOF-649 |
MOF-650 |
MOF-69a |
MOF-69c |
MOF-705 |
MOF-73 |
MOF-74 |
MOF-74 (DMF) |
MOF-74 (water) |
MOF-74(Mg)-1st cycle |
MOF-74-Co |
MOF-74-Fe |
MOF-74-Mg |
MOF-74-Ni |
MOF-74-Zn |
MOF-74Ni |
MOF-74Ni 70C |
MOF-74Ni-Ag |
MOF-75 |
MOF-75T |
MOF-76 |
MOF-C10 |
MOF-C16 |
MOF-C22 |
MOF-C30 |
MOF-C6 |
MOF-CJ3 |
MOF-CJ4 |
MOF-CJ5 |
MOF-CJ6 |
MOF-CJ7 |
MOF-Co/AgPF6-1 |
MOF-Co/AgSbF6-1 |
MOF-d1 |
MOF-d2 |
MOF-d3 |
MOF-d4 |
MOF-d5 |
MOF-ED |
MOF-EM |
MOF-Fe/AgBF4-1 |
MOF-Fe/AgPF6-1 |
MOF-Fe/AgSbF6-1 |
MOF-GO PSN |
MOF-GO SA |
MOF-HTB' |
MOF-IP |
MOF-L0 |
MOF-L1 |
MOF-L2 |
MOF-L3 |
MOF-L4 |
MOF-L5 |
MOF-L6 |
MOF-L7 |
MOF-monoclinic |
MOF-P-30 |
MOF-single |
MOF/BFG |
MOF/PAN |
MOF/PUF (A) |
MOF/PUF (B) |
MOF/Si |
MOF1N' |
MOFAC1 |
MOFAC1+PMN |
MOFAC3 |
MOFAC3+PMN |
MOFCo/AgBF4-1 |
MOFMC |
MOFSc2 |
MOFSc2-10H2 |
MOFSc2-2H2 |
MOFSc2-4H2 |
MOFSc2-6H2 |
MOFSc2-8H2 |
MOFTi2 |
MOFTi2-10H2 |
MOFTi2-2H2 |
MOFTi2-4H2 |
MOFTi2-6H2 |
MOFTi2-8H2 |
moisture treated coated MOF-5 1d |
moisture treated coated ZnBT 1d |
moisture treated MOF-5 2h |
moisture treated ZnBT 1d |
MONT 3 |
MONT 5 |
MONT 6 |
MONT 7 |
MOP-14 |
MOP-15 |
MOP-17 |
MOP-23 |
MOP-24 |
Mordenite |
Mordenite/Na |
MPF-1 |
MPF-2 |
MPF-3 |
MPF-4 |
MPF-5 |
MpRu-2 |
MpRu-2ex |
MpRu-5 |
MpRu-5ex |
MS-13X |
MS-5A |
MSP-20 |
MSS-Z8(1) |
MSS-Z8(2) |
Mt |
MTAF-3 |
MTAF-4 |
MTV-IRMOF-1 |
MTV-IRMOF-1-AE |
MTV-IRMOF-1-AF |
MTV-MOF-5-EHI |
MTV-MOF-5-EI |
MUF-77-butyl |
MUF-77-decyl |
MUF-77-ethyl |
MUF-77-hexyl |
MUF-77-methyl |
MUF-77-octyl |
MUF-7a |
MUF-7b |
MUF-7c |
MUF-7d |
MUF-7e |
MUF-7f |
MUF-7g |
MUF-7h |
MWCNT |
MWCNT (Acid 1) |
MWCNT (Acid 2) |
MWCNT (Acid 3) |
MWCNT (Acid 4) |
MWCNT (Acid 5) |
MWCNT@MIL-101 |
MWCNTs@MIL-53 |
MWCNTs@MIL_53 |
MWNT |
MWNT-Pt Loaded |
MZC-3 |
MZC-4 |
MZC-5 |
MZC-6 |
mZDC1000 |
mZDC1000 carbonization residence time of 0h |
mZDC1000 carbonization residence time of 10h |
mZDC1000 carbonization residence time of 24h |
MZIF-8 |
N-MOF |
Na+Me-SodZMOF |
Na-A |
Na-BEA(5.0) |
Na-CD-MOF |
Na-CHA |
Na-FAU(1.0) |
Na-FAU(2.7) |
Na-LEV |
Na-MFI(12) |
Na-MOR(8.9) |
Na-rho-MOF |
Na-Rho-ZMOF |
Na-SSZ-13 |
Na-usf-ZMOF |
Na-X |
Na-Y |
Na-ZIF-68 |
Na-ZIF-69 |
Na-ZIF-70 |
Na-ZIF-78 |
Na-ZIF-79 |
Na-ZSM-5 |
Na0.21H3.49Mn12O23 |
Na1ZSM-5 |
Na2ZSM-5 |
Na3[Cr3O(OOCCH3)6(H2O)3]3[alpha-As2W18O62]*34H2O |
Na4ZSM-5 |
Na52Y Faujasite |
Na56Y Faujasite |
Na600 |
Na640 |
Na8ZSM-5 |
NaAlH4 |
NaBH4 |
NaH |
NaH2[Cr3O(OOCCH3)6(H2O)3]3[alpha-P2W18O62]*32H2O |
Namontmorillonite |
NaNi3(OH)(SIP)2 |
nano-polyaniline powder |
nano-Si |
nano-Si/C nanocomposite |
nano-Si/ZnO/C nanocomposite |
Nanocrystalline MOF-74 (DMF) |
Nanogate-SWCNH |
Nanoporous Carbon |
Nanoporous Carbon Model C150 |
Nanoporous Carbon Model C24 |
Nanoporous Carbon Model C54 |
Nanoporous Carbon Model C96 |
nanosilica-Torlon hollow fiber composite |
nanosized ZIF-11 |
Nanospace Of Nanogate-SWCNH |
NaOH Activated Anthracite |
NaX |
NaY/NH4-Y |
NaZSM-5 |
Nb2O5 |
NBu4 |
NC |
NC-methanol-a-333-K |
NC-methanol-a-333k |
NC6H14 Soot Film |
NC800 |
NCID-1 |
NCoCo1 |
NCoCo2 |
NCoCo3 |
NDA-16 |
NDA-1800 |
NDC508 |
Neimenggu Coal |
NENU-11 |
NENU-3 |
NENU-511 |
NENU-512 |
NENU-513 |
NENU-514 |
NENU-520a |
NENU-9 |
NENU-9N |
NH2(1)-PCN-125 |
NH2(2)-PCN-125 |
NH2-MIL-101(Al) |
NH2-MIL-101(Cr) |
NH2-MIL-125 |
NH2-MIL-47 |
NH2-MIL-53 |
NH2-MIL-53(Al) |
NH2-MIL-53(Al) @ PSF 25 wt% |
NH2-MIL-53(Al) @ PSF 40 Wt% |
NH2-MIL-53(Ga) |
NH2-MIL-53(In) |
NH2-MOF-199 |
NH2-UiO-66 |
NH2-Uio-66(Zr) |
NH2MIL-53(Al) |
NH3-ZIF-8 |
NH4-Rho-ZMOF |
nHKUST-1 film |
Ni foam |
Ni foam-MIL-101 (27%) |
Ni foam-MIL-101 (60%) |
Ni foam-MIL-101 (81%) |
Ni(BDC)(PNO) |
Ni(bdc)(ted)0.5 |
Ni(bdc)(ted)0.5 t=100 |
Ni(bdc)(ted)0.5 t=15 |
Ni(bodc)(ted)0.5 |
Ni(Bpene)[Ni(CN)4] |
Ni(Bpy)(DBM)2 |
Ni(Bpy)(DBM)2+polystyrene |
Ni(bpy)Ni(CN)4 |
Ni(dpac)Ni(CN)4 |
Ni(Dpac)[Ni(CN)4] |
Ni(HBTC)(bipy)*3DMF |
Ni(HBTC)(pyz)*3DMF |
Ni(II)-doped MOF-5 |
Ni(II)-doped MOF-5 (.4 mM) |
Ni(II)-doped MOF-5 (.8 mM) |
Ni(II)-doped MOF-5 (1.2 mM) |
Ni(II)-doped MOF-5 (C2H5OH:DMF volume 1:9) |
Ni(II)-doped MOF-5 (C2H5OH:DMF volume 2:8) |
Ni(II)-doped MOF-5 (C2H5OH:DMF volume 3:7) |
Ni(II)-doped MOF-5 (C2H5OH:DMF volume 4:6) |
Ni(pyz)Ni(CN)4 |
Ni(pyz)[Ni(CN)4] |
Ni-bodc-ted |
Ni-CPO-27 |
Ni-DABCO |
Ni-DBM-BPY |
Ni-DHTP |
Ni-DMOF-TM |
Ni-DOBDC |
Ni-GO-MIL-101 |
Ni-HF |
Ni-IRMOF-1 |
Ni-ISO-4 |
Ni-MOF |
Ni-MOF-5 |
Ni-MOF-74 |
Ni-MOF-74 (0.0072) |
Ni-MOF-74 (1) |
Ni-MOF-74 (2) |
Ni-MOF-74 (2.9465) |
Ni-MOF-74 (BSS) |
Ni-MOF-74 (BSSP) |
Ni-MOF-74 (Buch) |
Ni-MOF-74 (DL) |
Ni-MOF-74 with residual MeOH |
Ni-PTC |
Ni-Y |
Ni/BOBDC |
Ni/C-1 |
Ni/C-2 |
Ni/C-3 |
Ni/DOBDC |
Ni/DOBDC loaded with 1 mmol/g water |
Ni/DOBDC loaded with 10 mmol/g water |
Ni/DOBDC loaded with 19.9 mmol/g water |
Ni/DOBDC loaded with 26.7 mmol/g water |
Ni/DOBDC loaded with 3.4 mmol/g water |
Ni/MWCNT |
Ni0.02Zn0.98(nim)2 |
Ni13-IRMOF-1 |
Ni13-IRMOF-1-4d |
Ni18P18O72N18C54H108 |
Ni2(BDC)2(dabco)4DMF1.5H2O |
Ni2(bipy)3(NO3)4 |
Ni2(BTEC)((bipy)3)3DMF2H2O |
Ni2(BTEC)(bipy)3*3DMF |
Ni2(dhbdc)32 |
Ni2(dhtp) |
Ni2(dhtp)(H2O)2*8H2O |
Ni2(dobdc) |
Ni2.75Mn0.25[(Mn4Cl)3(BTT)8]2 |
Ni22-IRMOF-1 |
Ni22-IRMOF-1-4d |
Ni2C34H51N6O13.5 |
Ni2C34H56N6O16 |
Ni2L |
Ni3(BTC)2 |
Ni3(btc)2(3-pic)6(pd)3 |
Ni3(BTP)2 |
Ni3(HCOO)6 |
Ni3(pzdc)2(7Hade)2(H2O)0.6 |
Ni3C36H63N7O20 |
Ni3C87H118N12O29 |
Ni3[(Co4Cl)3(BTT)8(H2O)12]2 |
Ni3[Co(CN)6]2 |
Ni50Co-MOF-74 |
Ni6P6O18N6C18H36 |
Ni90Cu-MOF-74 |
Ni@C 420 nanocomposite |
Ni@C 900 nanocomposite |
Ni@IRMOF-1 |
Ni@MIL-101(Cr) |
Ni@Zn-MOCP |
NiAlO |
NiBpeneNiCN |
NiBTC |
NiDABCO |
NiDBM-Bpy |
NiDOBDC |
NiMOF-74 |
NiPc-PBBA COF |
Nitro-MOF |
NJFU-2a |
NJTU-1 |
NJU-Bai10 |
NJU-Bai11 |
NJU-Bai12 |
NJU-Bai13 |
NJU-Bai16 |
NJU-Bai3 |
NJU-Bai6 |
NJU-BAi7 |
NJU-BAi8 |
NJU-Bai9 |
nNiCo |
NO2(1)-PCN-125 |
NO2(2)-PCN-125 |
NO2(4)-PCN-125 |
NO2-MIL-101(Cr) |
NO2-MIL-53(Al) (NO2-H2BDC 298) |
NO2-NH2-PCN-125 |
Norit R1 Extra |
Norit R1 Extra Carbon |
Norit R2030CO2 |
Norit RB2 |
Norit SX 1G |
Norit SX ultra |
NOTT-100 |
NOTT-100a |
NOTT-101 |
NOTT-101a |
NOTT-102 |
NOTT-102a |
NOTT-103 |
NOTT-103a |
NOTT-105 |
NOTT-106 |
NOTT-107 |
NOTT-108 |
NOTT-109 |
NOTT-109a |
NOTT-110 |
NOTT-111 |
NOTT-112 |
NOTT-119a (desolvated) |
NOTT-200 |
NOTT-201 |
NOTT-202a |
NOTT-204 |
NOTT-205 |
NOTT-206 |
NOTT-207 |
NOTT-208 |
NOTT-209 |
NOTT-210 |
NOTT-300 |
Nowa Ruda Mine Coal |
Np-MgO-350 |
Np-MgO-500 |
NPC |
NPC E0 |
NPC E1 |
NPC E2 |
NPC E3 |
NPC E4 |
NPC-5 |
NPC-6 |
NPC-7-Cu |
NPC-7-Zn |
NS1 |
NS2 |
NS3 |
NTU-101-Cu |
NTU-101-Zn |
NU-100 |
NU-1000 |
NU-100SP |
NU-108 |
NU-109 |
NU-110 |
NU-1104 |
NU-1104(H2) |
NU-1104(H2)-op |
NU-1104-op |
NU-1105 |
NU-1105-op |
NU-111 |
NU-125 |
NU-125-F1 |
NU-125-F1-feed 1to1 |
NU-125-F2 |
NU-125-F2-feed 1to1 |
NU-135 |
NU-301 |
NU-302 |
NU-700 |
NU-800 |
NUS-1a |
nZDC1000 |
NZIF-8 |
o-NENU-3a |
O-TTPP |
O=PCM-10 |
OCH3-MOF-5 |
OCH3-MOF-5-24h |
Oil Fly Ash |
Oil Shale |
OL-1 |
OM-SiC-3 |
OM-SiC-3-1000 |
OM-SiC-5 |
OMS-2 |
ONC1000 |
ONC700 |
ONC800 |
ONC900 |
Open Double Buckytube 4.78 nm |
Open-SWCNH |
Ordered Mesoporous Carbon: aC |
Ordered Mesoporous Carbon: aC-AO1 |
Ordered Mesoporous Carbon: aC-AO2 |
Ordered Mesoporous Carbon: oaC |
Ordered Mesoporous Carbon: oaC-AO1 |
Ordered Mesoporous Carbon: oaC-AO2 |
Outer Double Walled CNT r=2.5nm d=0.2nm |
Outer Double Walled CNT r=2.5nm d=0.5nm |
Outer Double Walled CNT r=2.5nm d=0nm |
Outer Double Walled CNT r=2.5nm d=15nm |
Outer Double Walled CNT r=2.5nm d=1nm |
Outer Double Walled CNT r=2.5nm d=2nm |
Outer Double Walled CNT r=2.5nm d=4nm |
Oxidized-SWCNT |
Oxorbon K20J |
Ozonicated Silicalite-1 |
P-MOF |
P2W18@UiO-67 |
PA |
PAF-1 |
PAF-1(Photoswitched) |
PAF-1-900 |
PAF-1-SO3Ag |
PAF-1-SO3H |
PAF-1/C-900 |
PAF-18-OH |
PAF-18-OLi |
PAF-3 |
PAF-3-dcCa |
PAF-3-dcMg |
PAF-301 |
PAF-302 |
PAF-302 (.2 mol) |
PAF-302 (.33 mol) |
PAF-302 (.5 mol) |
PAF-302 (.66 mol) |
PAF-302 (.8 mol) |
PAF-302 (Dreiding) |
PAF-302 (UFF) |
PAF-303 |
PAF-304 |
PAF-4-dcCa |
PAF-4-dcMg |
Palas Soot |
PAN |
PAN Fiber KOH-Activated at 500K |
PAN Fiber KOH-Activated at 600K |
PAN Fiber KOH-Activated at 700K |
PAN-AC |
PAN-C |
PAN/MOF-199 |
PANI |
PANI-VONC |
Pb(H3O)4[{Pb4(mu4-O)}3(hett)8]*6H2O |
Pb-DDQ |
Pb-DOBDC |
PBA |
Pbcn-Na0 |
Pbcn-Na4 |
Pbcn-Na8 |
PBSAC |
Pc-PBBA COF |
PCDL |
PCH1 |
PCH2 |
PCM-10 |
PCM-11 |
PCM-15 |
PCM-4 |
PCMOF-5 |
PCMOF2 |
PCN-10 |
PCN-105 |
PCN-11 |
PCN-12 |
PCN-12-Si |
PCN-121 |
PCN-123 |
PCN-124 |
PCN-125 |
PCN-125/CH2N3 |
PCN-125/CH2NH2 |
PCN-125/CH2NH2:SO3H |
PCN-125/H |
PCN-125/NH2 |
PCN-125/NO2 |
PCN-125/SO3Na |
PCN-125:SO3H |
PCN-13 |
PCN-14 |
PCN-16 |
PCN-17 |
PCN-18 |
PCN-19 |
PCN-20 |
PCN-200 |
PCN-21 |
PCN-223 (No Metal) |
PCN-224 |
PCN-26-ac |
PCN-305 |
PCN-306 |
PCN-307 |
PCN-308 |
PCN-332(Al) |
PCN-332(Fe) |
PCN-333(Al) |
PCN-333(Cr) |
PCN-333(Fe) |
PCN-333-Cr(III) |
PCN-333-Cr(III) ph=0 24h |
PCN-333-Cr(III) ph=11 24h |
PCN-333-Cr(III) water 24h |
PCN-333-Fe(III) |
PCN-38(ac) |
PCN-39(ac) |
PCN-426(Ni) |
PCN-427(Cu) |
PCN-46 |
PCN-5 |
PCN-53 |
PCN-6 |
PCN-6' |
PCN-60 |
PCN-61 |
PCN-66 |
PCN-68 |
PCN-6X |
PCN-72 |
PCN-777 |
PCN-80 |
PCN-81 |
PCN-82 |
PCN-88 |
PCN-9 |
PCN-921 |
PCN-922 |
PCN-923 |
PCOF-1 |
PCOP-1 |
PCOP-2 |
PCOP-3 |
PCOP-4 |
PCOP-5 |
PCP-1 |
PCP-2 |
PCP-3 |
PCP-N |
Pd(2-pymo)2 |
Pd-DETA-MIL-101 |
Pd-MOF |
Pd-NPs@[Me2NH2]24[Tb12(TATB)16(HCOO)12].12DMF.48H2O ) ion exchange |
Pd-PCM-18 |
Pd/Activated Carbon |
Pd/Activated Carbon@Zn2(bdc)2dabco |
Pd/Al(OH)(BDC)0.5(ABDC)0.5 |
Pd/MIL-101 |
Pd/MIL-101(Cr) |
Pd/MOF-5 |
Pd4.5/MIL-101 |
Pd@MIL-101(Cr) |
PD@NH2-MIL-125 |
PD@NH2-MIL-125 (4th cycle) |
Pd@ZIF-8 |
PDMS |
Pdpz |
PE-MCM-41 |
PE-MCM-41C |
PE-MCM-41E |
PECONF-1 |
PECONF-2 |
PECONF-3 |
PECONF-4 |
PED-MIL-101 |
PEHA-MIL-101 |
PEI-15/SBA-15 |
PEI-25-APTES-25-PQCS2129 |
PEI-30/SBA-15 |
PEI-50/SBA-15 |
PEI-65/SBA-15 |
PEI-80/SBA-15 |
PEI-C60 |
PEI-MonoSil |
Pentasil DAZ |
PET/Limestone 30:70 |
PET/Limestone 50:50 |
PET/Limestone 50:50 HCl wash |
PET/Limestone 50:50 prepared at 1123K |
PET/Limestone 50:50 prepared at 1273K |
PET/Limestone 83:17 |
PFC |
PFC_C120 |
PFC_C45 |
PFeA |
Phe-MTV-MOF |
Phys-2Li |
PIF |
PIF5 |
PIF6 |
PIF7 |
PIF8 |
PILC |
Pillared Layered Materials |
Pip-CPO-27-Ni |
Pip-CuBTTri |
Pitch Based Activated Carbon Fiber P10 |
Pitch Based Activated Carbon Fiber P15 |
Pittsburgh No. 8 Coal |
PIZOF-2 |
PKU-17 |
PLF-1 BULK |
PLF-1 CSA |
PLF-1 GC |
PLF-2 BULK |
PLF-2 CSA |
PLF-2 GC |
PLLA |
PLLA-ENSIC |
PLLA-MOF |
PLLA-MOF-ENSIC |
PMA-MIL-101(Cr) |
Pmg-IRMOF-1 |
pmg-MOF-5 |
PMMA-PMAA-CuBTC |
PMO |
PMOF-2(Cu) |
PMOF-2(Zn) |
Pocahontas No. 3 Coal |
Poly(FA)-900 |
Polyimide |
Polyimide Film |
Polyimide-CuBTC |
Polystrene |
Polystyrene |
Polysulfone |
Polytetrafluoroethylene |
Porous Carbon CS1000A |
Porous Carbon CS1000AF |
Porous Graphene |
Porous Graphitic Carbon |
POST-66(Y) |
POST-66(Y)-wt-10min |
POST-66(Y)-wt-12hin |
POST-66(Y)-wt-1hin |
POST-66(Y)-wt-24h |
POST-66(Y)-wt-24hin |
POST-66(Y)-wt-2hin |
POST-66(Y)-wt-30min |
POST-66(Y)-wt-5min |
PPN-125 |
PPN-125-DETA |
PPN-4 |
PPN-4/C600 |
PPN-4/C600-Si |
PPN-6 |
PPN-6-SO3H |
PPN-6-SO3Li |
PPN-6-SO3NH4 |
PQ-USY |
PQ-USY Acid Site Model |
PQ-USY Silanol Nest Model |
PQ-USY Siliceous Y Model |
PR |
PR-950-0 |
PR-950-15 |
PR-950-30 |
PR-950-60 |
PR-C |
Pre-ELM-11 |
pretreated a-Al |
pretreated m-Al |
Pristine VO |
pristine ZnBT |
PS |
PS-MFI |
Pseudo IRMOF-1 |
Pseudo MIL-47 |
Pseudo PCN-14 |
Pseudo-CuBTC |
Pseudo-opt CuBTC |
Pseudo-opt IRMOF-1 |
Pseudo-opt MIL-47 |
Pseudo-opt PCN-14 |
Pseudo-Vycor |
PSF |
PSiA |
Pt in Cu-TDPAT |
Pt in IRMOF-8 |
Pt(o-triptycenesemiquinonediimine)2 |
Pt-MOF |
Pt-MOF(C1) |
Pt-MOF(C2+60) |
Pt-MOF(C3+120) |
Pt-MOF(C4+180) |
Pt-MOFMC |
Pt-MWCNT |
Pt-PCM-18 |
Pt/35AS |
Pt/AC |
Pt/AC-bridges-MOF-177 |
Pt/AC-COF-1 |
Pt/AC-CuBTC |
Pt/Ac-IRMOF-1 |
Pt/Ac-IRMOF-8 |
Pt/AC-MIL-101 |
Pt/AC-MOF-177 |
Pt/AC/CB/IRMOF-1 |
Pt/AC/CB/IRMOF-8 |
Pt/Activated Carbon |
Pt/Activated Carbon-IRMOF-1 |
Pt/Activated Carbon@Zn2(bdc)2dabco |
Pt/AC_1 |
Pt/AC_1 in IRMOF-8 |
Pt/AC_2 |
Pt/AC_2 in Cu-TDPAT |
Pt/AC_2 in CuBTC |
Pt/AC_IRMOF-1 |
Pt/AX-21 |
Pt/IRMOF-8 Pt WT % 4.8 |
Pt/IRMOF-8 Pt WT % 6.2 |
Pt/IRMOF-8 Pt WT % 7.7 |
Pt/KL Naphtha Reforming Catalysts |
Pt/MIL-101 |
Pt/PTA-NH2-MIL-101(Al) |
Pt/TC |
Pt@MOF-177 |
PTA-MIL-100(Cr) |
PTA-MIL-101 |
PTA-NH2-MIL-101(Al) |
PTiA |
PUF |
Pure mullite |
Purified HiPco SWCNT |
Purified SWCNTs |
purified SWNT |
Purolite MN200 |
PW11-MIL-101 |
PW11Zr@UiO-67 |
PW12@UiO-67 |
PWA(0.5)/CuBTC |
PWA(1.0)/CuBTC |
PWA(2.0)/CuBTC |
Py-4PT |
Py-COF-1 |
Pyridine |
Pyrolized coal steam activated for 10h |
Pyrolized coal steam activated for 2.5h |
Pyrolized coal steam activated for 5h |
Pyrolized Graphite Powder |
R1KCHA |
R2KCHA |
raw SWNT |
Raw-CMS |
Rb-rho-MOF |
Rb-usf-ZMOF |
Regenerated Fe3O4@PAA@MOF-99(L) |
RFC |
RFC_C120 |
RFC_C240 |
RFC_C380 |
RFC_C45 |
RFC_N10 |
rGA |
RH-SNP |
Rh2(p-F-PhCO2)4(phz)] |
Rh@MIL-101 |
Rh@S-MIL-101 (2.2 wt% Rh) |
Rh@ZIF-8 |
Rho-ZMOF |
RhoZMOF |
RhoZMOF(Co) |
RhoZMOF(CU) |
RhoZMOF(Ni) |
Rht-MOF |
Rht-MOF-1 |
Rht-MOF-2 |
Rht-MOF-3 |
Rht-MOF-4a |
Rht-MOF-4b |
Rht-MOF-4c |
Rht-MOF-5 |
Rht-MOF-6 |
Rht-MOF-7 |
Rht-MOF-8 |
rht-MOF-9 |
rht-MOF-pyr |
rht-MOF-pyr in H2O 15 days RT |
rht-MOF-pyr in moisture 7 days RT |
rht-MOF-pyr in pH 2.5 HCl (aq) 7 days RT |
rht-MOF-pyr in steam 6 hours |
rht-MOF-tri in H2O 2 days RT |
rht-MOF-tri in moisture 7 days RT |
rht-MOF-tri in pH 2.5 HCL(aq) 24 hours RT |
rht-MOF-tri in steam 6 hours |
Rice Husk KOH-Activated at 500K |
Rice Husk KOH-Activated at 700K |
ROD-6 |
ROD-7 |
ROD-8a |
RPM-1 |
RPM1-Co |
RPM3-Zn |
RS-IRMOF-8 |
Rtl-MOF |
Ru-MOF |
Ru/MOF |
Ru@MOF-5 |
Ru@Zr-MOF |
RuMOF |
RuSiO2 |
S-MIL-101 |
S-MIL-101(Cr) |
S-MIL-53(Al) |
S-MOF-177 |
S-TTPP |
S-ZGM |
S1-MIL-101(Cr) |
S2-MIL-101(Cr) |
S3-MIL-101(Cr) |
Saccharose-based Carbon heated to 1273K |
Saccharose-based Carbon heated to 673K |
SALI-1 |
SALI-1' |
SALI-3 |
SALI-3' |
SALI-7 |
SALI-9 |
SALI-BA |
SALI-BA (hot water) |
SALI-BA (pH 0.5) |
SALI-BA (pH 2) |
SALI-BA (pH 4) |
SALI-DAP |
SALI-F3G |
SALI-PPA |
SALI-PPA (hot water) |
SALI-PPA (pH 0.5) |
SALI-PPA (pH 2) |
SALI-PPA (pH 4) |
SALI-PPA@2 |
SAPO STA-7 |
SAPO-34 |
SAPO-34 zeolite |
SAPO-34/CTF-03 |
SAPO-5 |
Sarabhai Charcoal |
SBA-15 |
SBA-15 Silica |
SBA-15-DGA |
SBA-15-GA |
SBA-15-GA-1 |
SBA-15-GA-2 |
SBA-15-GA-3 |
SBA-15-NH2 |
SBA-15-NHCOC4H5 |
SBA-15-OEG |
SBA-15-PMMA-LMW |
SBA-15-PMMAHMW |
SBA-16 |
SBF-Cu |
SBMOF-2 |
Sc-MOF |
Sc2(BDC)3 |
Sc2(NH2-BDC)3 |
Sc2(NO2-BDC)3 |
Sc2(O2CC6H4CO2)3 |
Sc3(BTC)2(OH)3 |
Sc3(Me-BTC)2(OH)3 |
SCu |
SCWNH |
SD2 |
sDMF120 |
sDMF220 |
SDU-1 |
SDU-6 |
SDU-7 |
SDU-8 |
Seeded MSSs |
Ser-MTV-MOF |
SGL 8X30 |
sH2O |
Shenua Coal |
Si(1)-MOF |
Si(1.5)-MOF |
Si(1.5)-MOF-180 |
Si(1.5)-MOF-60 |
Si(2)-MOF |
Si-CHA |
Si-DDR |
Si-MFI |
Si-Zeolite A |
Si3N4 |
Si450 |
Si450-KCN-H4 |
Si450-KCN-H8 |
Si450-KOH-H4 |
Si450-KOH-H8 |
SIFSIX-1-Cu |
SIFSIX-2-Cu |
SIFSIX-2-Cu-I |
SIFSIX-3-Zn |
Silica |
Silica Aerogel |
Silica Aerogel/CuBTC |
Silica Gel |
Silica Gel 100 |
Silica Gel 40 |
Silica Gel 60 |
Silica in fiber |
Silica MOR |
Silica Nanoparticle 10 NM |
Silica Nanoparticle 20 NM |
Silica Nanoparticle 30 NM |
Silica Nanoparticle 40 NM |
Silica-Alumina |
SILICAGEL 2-5 MM |
Silicalite MFI |
Silicalite MFI/2Na |
Silicalite MFI/Cs |
Silicalite MFI/K |
Silicalite MFI/Li |
Silicalite MFI/Na |
Silicalite MFI/Rb |
Silicalite S115 |
Silicalite SP115 |
Silicalite-1 AS1 |
Silicalite-1 AS2 |
Silicalite-1 AS3 |
Silicalite-CB A |
Silicalite-CB B |
Silicalite-CB C |
Silicalite-CB D |
Silicalite-CB1 |
Silicalite-CB2 |
Silicalite-Su1 |
Silicalite-Su2 |
Silicate MFI |
Siliceous Chabazite |
Silicon |
Sillica Gel |
SIM-1 |
SIM_.03g_.5kN |
SIM_.05g_5kN |
SIM_0.05g_1kN |
SiO2 |
SiO2@Fe3O4 |
SIV |
SiW11-MIL-101 |
SLUG-21 |
Sm2(ADB)3(DMSO)4*6DMSO*8H2O |
SM27 |
SM55 |
Smectite |
SMIT-1 |
Smopex-101 |
SNCuBTC |
SNIFSIX-1-Cu |
SNS2-10 |
SNS2-20 |
SNU-100' |
SNU-100'-Ca |
SNU-100'-Co |
SNU-100'-Li |
SNU-100'-Mg |
SNU-100'-Ni |
SNU-110' |
SNU-15' |
SNU-150 |
SNU-150' |
SNU-151' |
SNU-200' |
SNU-21 |
SNU-21H |
SNU-21S |
SNU-25 |
SNU-3 |
SNU-30' |
SNU-31' |
SNU-6 |
SNU-70 Br' |
SNU-70' |
SNU-71' |
SNU-77H |
SNU-77R |
SNU-77S |
SNU-80 |
SNU-9 |
SNU-9 (10 cycles) |
SNU-9 (100 cycles) |
SNU-9 (10 cycles) |
SNU-9 (100 cycles) |
SNU-M10 |
SNU-M11 |
SO2-DUT-5 |
SO3H(1)-PCN-125 |
SO3H(2)-PCN-125 |
SO3H-CH2NH2-PCN-125 |
SO3H-MIL-101 |
SO3H-PCN-125 |
SO3Na(1)-PCN-125 |
SO3Na(2)-PCN-125 |
Soc-MOF |
Sod-ZMOF |
SodZMOF |
SOF-1 Activated |
Solid CO2 |
Sonicated Fenton MWCNT |
Soot |
Soot (S-all-COOH) |
Soot (S-all-OH) |
Soot (S-surf-COOH) |
Soot (S-surf-OH) |
Sorbonorit 4 Activated Carbon |
Sorbonorit K4 |
SP |
Spheron 6 |
Spng-IRMOF-1 |
Sql-MOF |
SR-PXD |
Sr-Rho-ZMOF |
Sr-usf-ZMOF |
ST1AN |
ST2AN |
ST3AN |
STA-12(Ni) |
STEPA |
STU-1 |
STU-5 |
SU-32b |
Sulcis coal |
Sulphated ZrO3 |
SUMOF-2 |
SUMOF-3 |
SUMOF-4 |
SUMOF-5 |
SWCNT |
SWCNT 1.36-nm |
SWCNT 1.36-nm (preadsorbed H2O) |
SWCNT 2.03-nm |
SWCNT 2.03-nm (2 preadsorbed H2O clusters) |
SWCNT 2.03-nm (equilibrium preadsorbed H2O clusters) |
SWCNT 2.03-nm (multiple preadsorbed H2O clusters) |
SWCNT 2.03-nm (preadsorbed H2O cluster) |
SWCNT 2.03-nm (preadsorbed H2O) |
SWCNT external pore (width=1.5nm) |
SWCNT external pore (width=2nm) |
SWCNT external pore (width=3nm) |
SWCNT external pore (width=4nm) |
SWCNT external pore (width=5nm) |
SWCNT external pore (width=6nm) |
SWCNT external pore (width=7nm) |
SWCNT external pore (width=8nm) |
SWCNT internal pore (width=1.5nm) |
SWCNT internal pore (width=2nm) |
SWCNT internal pore (width=3nm) |
SWCNT internal pore (width=4nm) |
SWCNT internal pore (width=5nm) |
SWCNT internal pore (width=6nm) |
SWCNT internal pore (width=7nm) |
SWCNT internal pore (width=8nm) |
SWCNTs |
SWNT |
SWNT-MIL-101 |
SWNT-MIL-101-A(Li) |
SWNT-MIL-101-B(Li) |
SWNT-MIL-101-C(Li) |
SWNTS |
SWNTs-700 |
SWNTs-Pr |
SX4 Xerogel |
SX6 Xerogel |
SYSU |
T-MOF-5 |
T3A Carbon Molecular Sieve |
TAF-1 |
TAF-1a |
Tanac 4500 |
Tanac 7500 |
Tb-fmu-fcu MOF |
Tb-fum-fcu MOF |
Tb-fum-fcu-MOF |
Tb-mesoMOF |
Tb-pek-MOF-1 |
Tb3+@Al-MIL-53-COOH |
Tb@446-MOF |
TBA-Activated at 120C |
TBA-Activated at 180C |
tbo-MOF-2 |
tbo-MOF-3 |
TBPB |
TC |
TDCOF-5 |
TEPA-MIL-101 |
TetZB |
Thorez Mine Coal |
Thr-MTV-MOF |
ThrNaOAc |
ThrZnOAc |
Ti(pyradine-2-carboxylic acid) |
Ti-MOF |
Ti-MOF-NH2 |
Ti-POM/MIL-101 |
Ti/GO |
Ti3O(OEt)-(bdc)3(solv)2 |
Ti3O(OEt)-(bdc)3(solv)2 activated at 150C |
Ti3O(OEt)-(bdc)3(solv)2 reactivated at 25C |
TiBDC |
TiBDC_2h |
TIF-2 |
TIFSIX-1-Cu |
TiO2 |
TiO2/ZIF-8 |
Tire-derived Activated Carbon |
Titania |
Tm(BDC)1.5(DMF)(H2O) |
Tm2(L1)2(dmf)4(NO3)2 |
Tm2(TBDC)3(DMF)2(H2O)2*4H2O |
TMMB-1 |
TMMB-2 |
TMMB-3 |
TO-MOF |
Toluene-SWCNT |
TP-COF |
TPA-Activated at 180C |
TPA-Activated at 90C |
TPT |
Trans-[MoF(NNCHC6-H5SO2)(dppe)2][BF4] |
Treated (Et2NH2)3[(Cu4Cl)3(TTCA)8]-Li |
Treated [Cu@Mg-MOF] |
TRI-PE-MCM-41 |
TTZ-2 |
TUD-1 |
TUD-1-PEI |
Tyr-MTV-MOF |
TZM-1013 |
UCY-1 |
UCY-10 |
UCY-11 |
UCY-12 |
UCY-4 |
UCY-5 |
UCY-6 |
UCY-7 |
UCY-8 |
UCY-9 |
UHM-6 |
UHM-7 |
UiI-66(Zr) |
UiO(bdpc) |
UiO-66 |
UiO-66 (1:1) |
UiO-66 (24h) |
UiO-66 (2:1) |
UiO-66 (2h) |
UiO-66 (3:1) |
UiO-66 (48h) |
UiO-66 (4:1) |
UiO-66 (4h) |
UiO-66 (6:1) |
UiO-66 (72h) |
UiO-66 (7:1) |
UiO-66 (8h) |
UiO-66 cuboctahedron |
UiO-66 heterogeneous agglomeration |
UiO-66 large truncated cube |
UiO-66 small cube |
UiO-66(Ce0.05Zr0.95) |
UiO-66(Zr) |
UiO-66(Zr)-(CF3)2 |
UiO-66(Zr)-(COOH) (303K) |
UiO-66(Zr)-(COOH) (323K) |
UiO-66(Zr)-(COOH) (343K) |
UiO-66(Zr)-(COOH) (383K) |
UiO-66(Zr)-(COOH) (423K) |
UiO-66(Zr)-(COOH) (463K) |
UiO-66(Zr)-(COOH)2 |
UiO-66(Zr)-(COOH)2 (303K) |
UiO-66(Zr)-(COOH)2 (323K) |
UiO-66(Zr)-(COOH)2 (343K) |
UiO-66(Zr)-(COOH)2 (348K) |
UiO-66(Zr)-(COOH)2 (373K) |
UiO-66(Zr)-(COOH)2 (383K) |
UiO-66(Zr)-(COOH)2 (423K) |
UiO-66(Zr)-(COOH)2 (463K) |
UiO-66(Zr)-(COOH)2 (473K) |
UiO-66(Zr)-(OH)2 |
UiO-66(Zr)-Br |
UiO-66(Zr)-CO2H |
UiO-66(Zr)-NH2 |
UiO-66(Zr)-NO2 |
UiO-66(Zr)-SO3H |
UiO-66(Zr4+) metal/ligand ratio of 6:3 |
UiO-66(Zr4+) metal/ligand ratio of 6:4 |
UiO-66(Zr4+) metal/ligand ratio of 6:6 |
UiO-66(Zr4+) with acetic acid |
UiO-66(Zr4+) with high concentration stearic acid |
UiO-66(Zr4+) with low concentration stearic acid |
UiO-66(Zr4+) with metal/ligand ratio 6:3 |
UiO-66(Zr4+) with metal/ligand ratio 6:4 |
UiO-66(Zr4+) with metal/ligand ratio 6:6 |
UiO-66-(CH3)2 |
UiO-66-Br |
UiO-66-EA |
UiO-66-Me |
UiO-66-Me2 |
UiO-66-MM |
UiO-66-NH2 |
UiO-66-NH4 |
UiO-66-NO2 |
UiO-66-P1000 |
UiO-66-P10000 |
UiO-66-S1 |
UiO-66-S2 |
UiO-66-S3 |
UiO-66-S3p |
UiO-66-S4 |
UiO-66-S5 |
UiO-66/GO-1 |
UiO-66/GO-10 |
UiO-66/GO-5 |
UiO-66@AcO |
UiO-66@LiOtBu |
UiO-66@So4H |
UiO-67 |
UiO-67 (1:1) |
UiO-67 (2:1) |
UiO-67 (3:1) |
UiO-67 (4:1) |
UiO-67 (5:1) |
UiO-67 (6:1) |
UiO-67 (7:1) |
UiO-67(Zr) |
UiO-67-dcppy |
UiO-67-NH2 |
UiO-67-Urea |
UiO-67-Urea-bpdc |
UiO-67/MCM-41 |
UiO-67/MCM-41 Hybrid |
UiO-67Cr |
UiO-67f |
UiO-68 |
UiO-68 (1:1) |
UiO-68 (3:1) |
UiO-68 (4:1) |
UiO-68 (5:1) |
UiO-68 (6:1) |
UiO-68 (7:1) |
UiO-68-allyl |
UiO-68-NH2 |
UiO-68-SEt |
ULCP-1 |
ULCP-1A |
ULMOF-4 |
ULMOF-5 |
UMCM-1 |
UMCM-1-(OBnNO2)2 |
UMCM-1-AM5 |
UMCM-1-AMPh |
UMCM-1-CAT |
UMCM-1-NH2 |
UMCM-1-OBnNO2 |
UMCM-1-OH |
UMCM-1-Ph |
UMCM-1-PhCF3 |
UMCM-1-Pr |
UMCM-150 |
UMCM-150N2 |
UMCM-2 |
UMCUM-1-Me |
unmodified active carbon |
untreated a-Al |
untreated m-Al |
UPC-5 |
Upper Freeport Coal |
UPR-1 |
UPR-2 |
USO-1-Al |
USO-1-Al-A |
USO-2-Ni |
USO-2-Ni-A |
USO-2-Ni-MOF |
USO-3-In |
USO-3-In-A |
UTSA-10a |
UTSA-15 |
UTSA-15a |
UTSA-16 |
UTSA-16 WITH pva 0.0% |
UTSA-16 WITH pva 2.0% |
UTSA-16 WITH pva 3.3% |
UTSA-16 WITH pva 4.6% |
UTSA-16 WITH pva 6.7% |
UTSA-16 WITH pva powder |
UTSA-16-GO (19 mg) |
UTSA-16-GO (28.5 mg) |
UTSA-16-GO (9.5 mg) |
UTSA-20 |
UTSA-20a |
UTSA-25 |
UTSA-25A |
UTSA-30a |
UTSA-33a |
UTSA-34a |
UTSA-34b |
UTSA-35a |
UTSA-36a |
UTSA-40 |
UTSA-40a |
UTSA-48a |
UTSA-5 |
UTSA-50a |
UTSA-57a |
UTSA-5A |
UTSA-61a |
UTSA-72a |
UTSA-80a |
UTSA-88a |
V(dop)-MIL-101(Cr) |
V-Glycolamide150 |
V-Glycolate150 |
V-MOF |
V-Oxalate150 |
V-Oxamide100 |
V-Oxamide150 |
Vacuuated CuMOF |
Vacuuated CuMOF with silica filler |
ValZnOAc |
VPI-5 |
VPOC |
VR-5 |
VR-93 |
VSB-1 |
Vycor Glass |
Walbrzych Mine Coal |
water-preadsorbed A25 |
Wessalite DAY |
Wood based phosphoric acid activated carbon |
Wood based phosphoric acid activated carbon (washed) |
WUT-1 |
WUT-1a |
WV1050 |
WVA 1100 |
WVA 1100 oxidized |
WYO |
Wyodak Coal |
X2-CO2-CH2O |
XLPEO |
Xtrusorb |
Xtrusorb oxidized |
Y-14-NDC fcu-MOF |
Y-aea-MOF-1 |
Y-fmu-fcu MOF |
Y-ftw-MOF-2 |
Y-fum-fcu MOF |
Y-fum-fcu-MOF |
Y-PCP |
Y-pek-MOF-1 |
Y-type High Silica Zeolite |
Y/ZIF-8 |
Y3.5-MOF-5 |
Y4P12O36N12C42H84 |
Yb(BPT) |
Yb(BPT)(H2O)*(DMF)1.5(H2O)1.25 |
YO-MOF |
Z-cage |
Z-Fe |
Z-Fe/1.0 M NaOH |
Z-Fe/10.0 M NaOH |
Z-Fe/2.0 M NaOH |
Z-MOF |
ZBDh |
ZBDt |
ZBTEC-1 |
Zeolite 10X |
Zeolite 10X-Carbon-C60 |
Zeolite 10X-Carbon-C60-7S |
Zeolite 10X-Carbon-C70 |
Zeolite 10X-Carbon-C70S |
Zeolite 10X-Carbon-C75 |
Zeolite 10X-Carbon-C80 |
Zeolite 13A |
Zeolite 13X |
Zeolite 13X WE894 |
Zeolite 3A |
Zeolite 3A pre-evacuated at 300C |
Zeolite 4A |
Zeolite 4A S0.3 |
Zeolite 4A S5.0 |
Zeolite 4A TG242 |
Zeolite 4A-X |
Zeolite 5A |
Zeolite 5A KE154 |
Zeolite A |
Zeolite A1PO-11 |
Zeolite A1PO-31 |
Zeolite A1PO-36 |
Zeolite A1PO-5 |
Zeolite A1PO-8 |
Zeolite A1PO4-TR |
Zeolite ACO |
Zeolite AFI |
Zeolite AFX |
Zeolite AgY |
Zeolite ALPO-17 |
Zeolite ANA |
Zeolite ASV |
Zeolite AWW |
Zeolite BaX |
Zeolite BaY |
Zeolite BEA |
Zeolite Beta |
Zeolite BOG |
Zeolite CaA |
Zeolite CAN |
Zeolite CaNa-A |
Zeolite CBV-300 |
Zeolite CBV-720 |
Zeolite CBV-780 |
Zeolite Ce/HUSY |
Zeolite CFI |
Zeolite CHA |
Zeolite CsX |
Zeolite CsY |
Zeolite CuX |
Zeolite DAY |
Zeolite DD3R |
Zeolite DDR |
Zeolite EDI |
Zeolite ERI |
Zeolite FAU |
Zeolite FAU-I |
Zeolite FAU-Si |
Zeolite FER |
Zeolite GIS |
Zeolite GME |
Zeolite H |
Zeolite H-YZ |
Zeolite HUSY |
Zeolite HY |
Zeolite IHW |
Zeolite ISV |
Zeolite ITQ-12 |
Zeolite ITQ-29 |
Zeolite IWV |
Zeolite K-ZK-5 |
Zeolite KA |
Zeolite KX |
Zeolite KY |
Zeolite Li-LSX |
Zeolite Li-LSX 78% |
Zeolite Li-LSX 83% |
Zeolite Li-LSX 99% |
Zeolite Li-Y |
Zeolite Li-ZK-5 |
Zeolite LiA |
Zeolite LiX |
Zeolite LiY |
Zeolite LS-Ca-KFI |
Zeolite LS-K-KFI |
Zeolite LS-Li-KFI |
Zeolite LS-Mg-KFI |
Zeolite LS-Na-KFI |
Zeolite LS-Sr-KFI |
Zeolite LTA |
Zeolite LTA-5A |
Zeolite LTA-Si |
Zeolite LTL |
Zeolite LZ |
Zeolite MDR |
Zeolite MEL |
Zeolite MEP |
Zeolite MER |
Zeolite MFI |
Zeolite MFI Membrane |
Zeolite MFI-1 |
Zeolite MFI-2 |
Zeolite MFI-5 |
Zeolite MFI-6 |
Zeolite MFI-8 |
Zeolite MFT |
Zeolite MOR |
Zeolite MSE |
Zeolite MTT |
Zeolite MTW |
Zeolite MWW |
Zeolite MYm |
Zeolite Na-A |
Zeolite Na-LSX |
Zeolite Na-MFI |
Zeolite Na-MOF |
Zeolite Na-MOR |
Zeolite Na-Y |
Zeolite Na-ZK-5 |
Zeolite Na13X |
Zeolite NaA |
Zeolite NaA-4 |
Zeolite NaP1 |
Zeolite NaX |
Zeolite NaY |
Zeolite NaY-10 |
Zeolite NaY52 |
Zeolite NaY56 |
Zeolite NiNaX |
Zeolite NiNaX-49 |
Zeolite NiNaX-65 |
Zeolite NiNaX-70 |
Zeolite NiNaX-73 |
Zeolite NiNaX-75 |
Zeolite NiX |
Zeolite OBW |
Zeolite OFF |
Zeolite PdNaX-31 |
Zeolite PdNaX-43 |
Zeolite PdNaX-52 |
Zeolite PdNaX-58 |
Zeolite PdNaX-67 |
Zeolite PdX |
Zeolite PdY |
Zeolite Pore Model |
Zeolite RhNaX |
Zeolite RhNaX-29 |
Zeolite RhNaX-44 |
Zeolite RhNaX-55 |
Zeolite RhNaX-69 |
Zeolite RhNaX-73 |
Zeolite RHO |
Zeolite RhX |
Zeolite RuNaX-20 |
Zeolite RuNaX-32 |
Zeolite RuNaX-40 |
Zeolite RuNaX-46 |
Zeolite RuNaX-52 |
Zeolite RuX |
Zeolite RWY |
Zeolite SIV |
Zeolite SOD-Si |
Zeolite SOF |
Zeolite STW |
Zeolite templated carbon |
Zeolite TER |
Zeolite TON |
Zeolite TSC |
Zeolite UFI |
Zeolite USY |
Zeolite VFI |
Zeolite X |
Zeolite Y |
Zeolite Z-200 |
Zeolite Z-35 |
Zeolite ZK4 |
Zeolyst CBV 100 |
Zeolyst CBV 30014G |
Zeolyst CBV 780 |
Zeolyst CBV712 |
Zeosorb 13X |
ZID |
ZIDs |
ZIF-1 |
ZIF-10 |
ZIF-108 |
ZIF-11 |
ZIF-12 |
ZIF-2 |
ZIF-20 |
ZIF-21 |
ZIF-22 |
ZIF-23 |
ZIF-25 |
ZIF-3 |
ZIF-303 |
ZIF-4 |
ZIF-5 |
ZIF-6 |
ZIF-60 |
ZIF-65 |
ZIF-67 |
ZIF-68 |
ZIF-69 |
ZIF-7 |
ZIF-7(lp) |
ZIF-7(lp+) |
ZIF-7(np) |
ZIF-7-8 |
ZIF-70 |
ZIF-71 |
ZIF-71 (10nm crystalline domains) |
ZIF-71 (11nm crystalline domains) |
ZIF-71 (30nm crystalline domains) |
ZIF-71 (micocrystalline) |
ZIF-74 |
ZIF-75 |
ZIF-76 |
ZIF-77 |
ZIF-78 |
ZIF-79 |
ZIF-8 |
ZIF-8 (BULK) |
ZIF-8 (crystal = 0.060 micrometers) |
ZIF-8 (crystal = 0.33 micrometers) |
ZIF-8 (crystal = 0.47 micrometers) |
ZIF-8 (crystal = 0.73 micrometers) |
ZIF-8 (crystal = 1.2 micrometers) |
ZIF-8 (crystal = 2.1 micrometers) |
ZIF-8 (crystal = 88 micrometers) |
ZIF-8 (Large Size) |
ZIF-8 (Microwave) |
ZIF-8 (Middle Size) |
ZIF-8 (QCM) |
ZIF-8 (Room Temperature) |
ZIF-8 (Small Size) |
ZIF-8 + 10 mg L-1 of OTC |
ZIF-8 + 25 mg L-1 of OTC |
ZIF-8-(NH2)2 |
ZIF-8-0.025 Wt% |
ZIF-8-0.025 WT% CTAB |
ZIF-8-90 |
ZIF-8-90 0% |
ZIF-8-90 100% |
ZIF-8-90 30% |
ZIF-8-90 50% |
ZIF-8-90 70% |
ZIF-8-C_100_2d |
ZIF-8-C_200_2d |
ZIF-8-C_250_2d |
ZIF-8-C_250_2d_V |
ZIF-8-M_100_7d |
ZIF-8-M_200_2d |
ZIF-8-M_250_2d |
ZIF-8-M_250_2d_V |
ZIF-8-NH2 |
ZIF-8-SiO2 |
ZIF-8-W_100_7d |
ZIF-8-W_200_2d |
ZIF-8-W_250_2d |
ZIF-8-W_250_2d_V |
ZIF-80 |
ZIF-81 |
ZIF-82 |
ZIF-8HP |
ZIF-9 |
ZIF-90 |
ZIF-91 |
ZIF-92 |
ZIF-93 |
ZIF-95 |
ZIF-96 |
ZIF-97 |
ZIF-Cl |
ZIF-COOH |
ZIF-NO2 |
ZIF-Zn(F-im)2 |
ZIF-Zn(mim)2 |
ZIFs |
ZJNU-40a |
ZJU-21 |
ZJU-22 |
ZJU-25 |
ZJU-25a |
ZJU-26 |
ZJU-35a |
ZJU-36a |
ZJU-48a |
ZJU-5a |
ZJU-70a |
ZMOF |
Zn(1a)(BIPY) |
Zn(2-2H)*5(pyridine) |
Zn(2-2H)*H2O |
Zn(2-methylimidizolate)2 |
Zn(AFSL) |
Zn(BDC) |
Zn(BDC)(BPY) 0.5 |
Zn(bdc)(dabco) |
Zn(BDC)(DABCO)0.5 |
Zn(BDC)(DABCO)0.5*(DMF)2(H2O) |
Zn(BDC)(DMBPY) 0.5 |
Zn(BDC)(TED) |
Zn(bdc)(ted)0.5 |
Zn(bdc)(ted)0.5 t=100 sec |
Zn(bdc)(ted)0.5 t=15 sec |
Zn(BDC)-(Dabco)0.5 |
Zn(bdc)dabco |
Zn(bpe)(tftpa) |
Zn(bpe)(tftpa)*cyclohexanone |
Zn(DPB) |
Zn(GA)2 |
Zn(HDTIM)3 1.5H2O |
Zn(ICA)-1 |
Zn(ICA)-2 |
Zn(II)-MOF [Zn(HPylmDC)(DMA)]n |
Zn(Im)1.05(5-NibIM)0.95 |
Zn(Im)1.1(5-MebIM)0.9 |
Zn(Im)1.2(5-BrbIM)0.8 |
Zn(Im)1.25(5-ClbIM)0.75 |
Zn(L) (HBTC)*(H2O)2 |
Zn(L)(aip)*(H2O) |
Zn(L)(hip)*(DMF)(H2O) |
Zn(L)(ip)*(DMF)(H2O)1.5 |
Zn(L)(nip)*(DMF)0.5(H2O)0.5 |
Zn(L)(tdca)*1.5DMF |
Zn(L10)2 |
Zn(L3)(L10)2 |
Zn(L3)(L9)2 |
Zn(L4)(L10)2 |
Zn(L4)(L9)2 |
Zn(L5)(L9)2 |
Zn(L6)(L9)2 |
Zn(L9)2 |
Zn(mIm)2 |
Zn(NDC)(BPY) 0.5 |
Zn(NDC)(DMBPY) 0.5 |
Zn(NDC)(DPMBI) |
Zn(NDI-H) |
Zn(NDI-NHEt) |
Zn(NDI-SEt) |
Zn(NDI-SO2Et) |
Zn(NDI-SOEt) |
Zn(NO2-BDC)(dmbpy).5](C2H6O)(H2O)-a |
Zn(NO2-BDC)(dmbpy).5](C2H6O)(H2O)-a in water for 30 days |
Zn(NO3)2*4H2O |
Zn(NO3)2*6H2O |
Zn(OPE) 2H2O |
Zn(pbc)*Hdma |
Zn(pydc)(dma) |
Zn(pyz)2(SiF6) |
Zn(tbip) |
Zn-ADA-1 |
Zn-ADA-ADS |
Zn-Atz |
Zn-Atz-MOF |
Zn-BDC |
Zn-bpdc-apy |
Zn-bpdc-bpee |
Zn-BTEC |
Zn-BTTB-BPY |
Zn-BTTB-DMBPY |
Zn-DABCO |
Zn-DDQ |
Zn-DMOF-TM |
Zn-DOBDC |
Zn-F-MOF-4B |
Zn-IRMOF-1 |
Zn-MCMOF |
Zn-MOCP |
Zn-MOF |
Zn-MOF-5 |
Zn-MOF-74 |
Zn-MOF-74 (BSS) |
Zn-MOF-74 (BSSP) |
Zn-MOF-74 (Buch) |
Zn-MOF-74 (DL) |
Zn-MOF-74(cycle 1) |
Zn-MOF-74(cycle 2) |
Zn-MOF-74(cycle 3) |
Zn-MOF-74(cycle 4) |
Zn-MOF-74(cycle 5) |
Zn-MOF-74/0.25 |
Zn-MOF-74/1 |
Zn-MOF-74/18 |
Zn-MOF-74/18-DMA |
Zn-MOF-74/18-NMP |
Zn-MOF-74/24 |
Zn-MOF-74/240 |
Zn-MOF16 |
Zn-PAA-ADS |
Zn-Pd-2 |
Zn-POM@MIL-101 |
Zn-SLUG-35 |
Zn-TBCPPM |
Zn-TTC |
Zn/BTB Ant |
Zn/BTB Dia |
Zn/BTB Tsx |
Zn/Co-BTEC |
Zn2(1b)2(BIPY) |
Zn2(1c)2(BIPY) |
Zn2(1d)2(BIPY) |
Zn2(Atz)2(ox) |
Zn2(bdc)(L-lac)(dmf).DMF |
Zn2(bdc)2(dabco) |
Zn2(BDC)2(TED) |
Zn2(bdc)2dabco |
Zn2(bpdc)2(bpee) |
Zn2(BPDC)2(BPEE)*2DMF |
Zn2(bpdc)2(bpee)]*2DMF |
Zn2(bpdc)2-(bpee) |
Zn2(C2O4)(C2N4H3)2.(H2O)0.5 |
Zn2(C34H18O8) |
Zn2(dhtp) |
Zn2(dobdc) |
Zn2(L)(oba)2*2DMF*2H2O |
Zn2(NDC)2(diPyNI) |
Zn2(NDC)2(diPyNI)-K |
Zn2(NDC)2(diPyNI)-Li |
Zn2(NDC)2(diPyNI)-Na |
Zn2(NDC)2(diPyTz) |
Zn2(NDC)2(DPNI) |
Zn2(pbc)2*Hdma*H3O*2H2O |
Zn2(pydc)2(DEF) |
Zn2(pydc)2(DEF)-MeOH |
Zn2(tmbdc)2(bpy) |
Zn26NDC_dabco |
Zn27NDC_block |
Zn2BDC2TED |
Zn2C14N2O8H4 |
ZN2GeO4 |
Zn2GeO4-ZIF-8 |
Zn2L |
Zn2L2L'-2 |
Zn2L2L'-3 |
Zn2L2L'-4 |
Zn2L2L'-5 |
Zn3(BDC)3[Cu(Pyen)]*(DMF)5(H2O)5 |
Zn3(BDC)3[Cu(SalPyCy)]*5DMF*4H2O Desolvated |
Zn3(BPDC)2(O2CH)2*2Et2NCHO |
Zn3(BTC)2 |
Zn3(CDC)3[Cu(SalPyCy)]*5DMF*4H2O Desolvated |
Zn3(OH)2(bdc)2*2DEF |
Zn3(OH)2(dmcapz)2 |
Zn3(TCPB)2(H2O)2 |
Zn3(TCPB)2*2H2O]*2H2O*4DMF |
Zn3L3(DMF)2 |
Zn3[(Zn0.7Mn3.3Cl)3(BTT)8]2*2ZnCl2 |
Zn4(O)(mip)3 |
Zn4(OH)2(124-BTC)2 |
Zn4(pydc)4-(DMF)2-3DMF |
Zn4.5(pbc)3(OH)(H2O)0.5*Hdma |
Zn4O |
Zn4O (rho=300kg/m^3) |
Zn4O(bdc)(bpz)2 |
Zn4O(BDC)3 |
Zn4O(BDC)X-(ABDC)3-X |
Zn4O(BTB)2 |
Zn4O(C4B2H4Li2(H2)6(COO)2)3 |
Zn4O(C4B2H4Na2(H2)12(COO)2)3 |
Zn4O(D2-tcppda)1.5 |
Zn4O(dmcapz)3 |
Zn4O(dmcapz)3]n |
Zn4O(Me4BPDC)3-X(TPDC)X |
Zn4O*H2O*DEF2 |
Zn4O*H2O*DMF |
Zn4O-CH4 |
Zn4O-[(BDC)Cr(CO)3]3 |
Zn4OL3(DMF)(CHCl3) |
Zn5(BTA)6(TDA)2 |
Zn5(OH)4(BDC)3*2DMF |
Zn7O2(pda)5 |
ZnAcBPDC |
ZnAlF5*[TAZ] |
Znbpetpa |
ZnBT |
ZnBTBd |
ZnBuBPDC |
ZnCaBTB |
ZnDABCO |
ZNJU-60a |
ZnL2Ld-2 |
ZnL2Ld-3 |
ZnL2Ld-4 |
ZnL2Ld-5 |
ZnMG-n |
ZnMGO |
ZnMOF-74 |
ZnO@C |
ZnO@ZIF-8 |
ZnPeBPDC |
ZnPO-MOF |
ZnPrBPDC |
Zn[(GA).25(GT).75]2 |
Zn[(GA).50(GS).50]2 |
Zn[(GA).60(GS).40]2 |
Zn[(GA).75(GS).25]2 |
Zn[(GA).75(GT).25]2 |
Zn[(GA).90(GS).10]2 |
Zn[(GS).25(GT).75]2 |
Zn[(GS).50(GT).50]2 |
Zr(OH)4 |
Zr-Cl2AzoBDC |
Zr-fum MOF (393 k) |
Zr-fum MOF (433 k) |
Zr-fum MOF (473 k) |
Zr-fum-MOF |
Zr-fumarate |
Zr-MOF |
Zr-MOF (0 eq) |
Zr-MOF (100 eq) |
Zr-MOF fiber |
Zr-MOF nanocrystals |
Zr-MOF-801-P |
Zr-MOF-801-SC |
Zr-MOF-802 |
Zr-MOF-804 |
Zr-MOF-805 |
Zr-MOF-806 |
Zr-MOF-808 |
Zr-MOF-841 |
Zr-MOF-NH4-2 |
Zr-NDC |
Zr-PILC |
Zr6-AzoBDC |
Zr6-Cl2AzoBDC |
Zr6-Muco |
Zr6-NDC |
ZrFA |
ZrIV Muconate |
ZrO2 |
ZrO[O2C-C10H6-CO2] |
ZrO[O2C-C12H8-CO2] |
ZrO[O2C-C12N2H6Cl2-CO2] |
ZrO[O2C-C6H4-CO2] |
ZrP4O16.5C10N2H33 |
Zs500-A-325 |
ZSM-12 |
ZSM-5 |
ZSM-5-Cordierite |
ZSM-5-MCM-41 |
ZTOF-1 |
ZYC_1000 |
ZYC_800 |
ZYC_850 |
ZYC_900 |
ZYC_950 |
[(53%Co/47%Cu(Me-prz-trz-ia)] |
[(84%Co/16%Cu)(Me-prz-trz-ia)] |
[(84%Co/16%Cu)(Me-prz-trz-ia)](rt) |
[(AgCN)4(qox)2] |
[(CH3)2NH2]2[Cd3(BPTC)2]*(DMF) |
[(CH3)2NH2]2[Zn(TATAT)2/3]3DMFH2O |
[(CH3)2NH2]@[Eu2L3(HCOO)] |
[(CH3)2NH2]@[Eu2L3(HCOO)]-pyr |
[(CH3)2NH2][Cd(bpdc)1.5]*2DMA |
[(CH3)2NH2][Zn3(DATRZ)(BDC)3]*xDMF |
[(CH3)NH2]3[(Cu4Cl)3-(btc)8].TEA |
[(CH3)NH2]3[(Cu4Cl)3-(btc)8].TMA |
[(CH3)NH2]3[(Cu4Cl)3-(btc)8].TPA |
[(CH3)NH2]3[(Cu4Cl)3-(btc)8].xMeOH |
[(InC28O8H14)2(C4H12N2)](C3H7NO)3.5(H2O)5 |
[(InC28O8H14)2Li1.5(H3O)0.5](H2O)11 |
[(Me3Sn)4(mu-LH)2]n |
[(Ni2L2)(bptc)]*6H2O*3DEF |
[(Ni2L4)(bptc)]*14H2O |
[(NiL)3(TCBA)2]*12H2O |
[(Ni^II)2Ni^III(mu3-OH)(IN)3(BDC)1.5] |
[Ag(qox)(4-ab)] |
[Ag2(bisox)3](ClO4)2 |
[Ag2(bisox)3](ClO4)2 Et2O |
[Ag2(Me4bpz)] |
[Ag2(phbpz)] |
[Ag4(L(S))3(NO3)4]*x(Guest) |
[Al(OH) (SBPDC)] |
[Al(OH) (SBPDC)] (CE) |
[Al(OH) (SBPDC)] (MW) |
[Al(OH) (SBPDC)] (reflux) |
[Al(OH)(BPDC-NH2)] |
[Al(OH)(BPDC-NO2)] |
[Al(OH)(BPDC-SO2) |
[Al(OH)(bpydc)*0.97Cu(BF4)2] |
[Al(OH)(ndc)] |
[Al(OH)(NDC-(NO2)2)] |
[Al4(OH)2(OCH3)4(H2N-bdc)3]*xH2O |
[Al]-Ni-bpydc |
[B12H12]2- |
[Bi(C5H3N2O4)(C5H2N2O4)] |
[Bi(mu2-OH)(C7H3NO4)] |
[BMIM][SCN]/IRMOF-1 |
[C16mim]3PW12O40/SiO2 |
[C22H20N2O8Zn2].0.81(C22H18) |
[C2B10H12] |
[C4mim]3PW12O40/SiO2 |
[C4N2H10][Bi(C7H4NO4)(C7H3NO4)]*H2O |
[C8mim]3PW12O40/SiO2 |
[Ca2(BIPA-TC)(DMF)4]*2DMF |
[Ca2Na2(C7H2NO5)2(H2O)6]H2O |
[CB11H12]1- |
[Cd(2-NH2bdc)(4-bpmh)]n.2n(H2O) |
[Cd(azpy)2(NO3)2]*(azpy) |
[Cd(bdc)(4-bpmh)]n.2n(H2O) |
[Cd(BDOA)-(bpy)(H2O)2] |
[Cd(bipy)0.5(Himdc)]n |
[Cd(bpdc)0.5(atz)(DMF)]2DMF |
[Cd(L)(C3H7NO)](C2H8N)(H2O)0.5 |
[Cd(l-pzdc)(2-meim)3] |
[Cd(L1)(Cl)] |
[Cd(L2)(Cl)] |
[Cd(Me4bpz)2{NCS}2]*2/3CH2Cl2 |
[Cd(Me4bpz)2{SiF6}]*1.5CH2Cl2 |
[Cd(Me4bpz)2{SiF6}]*6H2O |
[Cd(mpto)2.CH3CH2OH]n |
[Cd(mu-pydc)(2-meim)]n |
[Cd(NDC)0.5(PCA)]*Gx |
[Cd(ntd)(e-urea)] |
[Cd(PDCO)(bipy)*(H2o)*5H2O]n |
[Cd(PNMI)]*0.5DMA*5H2O |
[Cd(pnta)2]*3.8DMF |
[Cd(ppmdc)(H2O)2] |
[Cd2(azpy)3(NO3)4]*2Me2CO |
[Cd2(bptc)(bpib)]*4H2O |
[Cd2(bptc)(bpimb)(H2O)]*2H2O |
[Cd2(L)-(H2O)]*0.5H2O |
[Cd2(L)] |
[Cd2(Me4bpz)4{SiF6}{NCS}2]*2CH2Cl2 |
[Cd2(Me4bpz)4{SiF6}{NCS}2]*6CHCl3 |
[Cd2(sdb)2(3-bmph)2]n.3n(H2O).n(C6H5NO) |
[Cd2(sdb)2(4-bpmh)2(H2O)].2n(H2O) |
[Cd2(sdb)2(4-bpmh)2(H2O)]n.1n(H2O) |
[Cd2(sdb)2(4-bpmh)2(H2O)]n.2n(H2O) |
[Cd2(sdb)2-(3-bpmh)2]n.3n(H2O).n(C6H5NO) |
[Cd2(sdb)2-(3-bpmh)]n.3n(H2O).n(C6H5NO) |
[Cd2+(tdc)(bpy)] |
[Cd2L(H2O)2] |
[Cd2L(H2O)]2*5H2O |
[Cd3(TATB)2]n |
[Cd3Na6(BTC)4(H2O)12]H2O |
[Cd3Na6(BTC)4(H2O)12]H2O(CEH) |
[Cd4(OH)2(4-pt)6(DMF)4] |
[Cd4(OH)2(4-pt)6(H2O)4] |
[Cd4Cl(Ni-L)3(Ni-HL)(H2O)6(DMF)]*4DMF |
[Cd4Cl3(4-pt)4(OH)(H2O)3] |
[Cd5Cl6(4-pt)4(H2O)4] |
[Ce2(ADB)3(H2O)3] |
[Ce2(bpdc)3(HCOOH)2] |
[Ce3(ADB)3(HADB)3]*30DMSO*29H2O |
[Ce6(BDC)9(DMF)6(H2O)3*3DMF] |
[Co(2)(pyridine)2(H2O)] |
[Co(atz)(bdc)0.5] |
[Co(azpy)2(NCS)2]*0.5EtOH |
[Co(bpg)3]Cl3 |
[Co(bpy)2(OTf)2] |
[Co(bta)0.5(Htz)(H2O)]n |
[Co(fa)] |
[Co(Hdpt24)(dpt24)2*H2O] |
[Co(HL)]*2H2O |
[Co(HL)]*DMF*H2O |
[Co(Hoba)2*2H2O] |
[Co(l-pzdc)(H2O)(2-meim)2] |
[Co(L-RR)(H2O)*H2O] |
[Co(Me-prz-trz-ia)](373K) |
[Co(Me-prz-trz-ia)](rt) |
[Co(NCS)2(bpe)2]*3H2O*2C2H6SO |
[Co(ntd)(e-urea)] |
[Co(ox)(bpy)] |
[Co(pca)(bdc)0.5] |
[Co(ppmdc)(H2O)2] |
[Co1.5(tci)(DMA)]*DMA |
[Co2(4-Ptz)2(2-NH2-BDC)(DMA)]n |
[Co2(4-Ptz)2(BDC)(DMA)]n |
[Co2(azpy)3(NO3)4]*Me2CO*3H2O |
[Co2(BDC)2(BPNO)] |
[Co2(BDC)2(BPNO)]*H2BDC*2MeOH |
[Co2(BDC)2-(BPNO)]*2DMF |
[Co2(bpdc)2(H2bpz)]*2(DMF)*5(H2O) |
[Co2(BTEC)(H2O)4]2H2O |
[Co2(C8H2O6)-(H2O)2]*8H2O |
[Co2(l3-OH)(l2-OH2)(oba)(Hoba)(pyz)]n(1) |
[Co2(mu2-H2O)(hfipbb)2(py)3]*2(py)]n |
[Co2(mu3-OH)(H2O){(NO2)-C6H3-(COO)2}(C2N4H3)]*H2O |
[Co2(mu3-OH)(H2O){(NO2)-C6H3-(COO)2}(C2N5H5)]*H2O |
[Co2(ndc)2(bpee)2](bpee) |
[Co2(ndc)2(bpy)] |
[Co2(ox)2(dchtpy)]n*9nH2O |
[Co2(pbdc)2(bimb)0.5 (H2O)4 (DMF)0.25]n |
[Co2+(tdc)(bpy)] |
[Co2L(DPE)] 2DMF 5H2O |
[Co3(bpdc)3(bpy)] |
[Co3(bpdc)3bpy]*4DMF*H2O |
[Co3(BTB)2(DMA)4]*4DMA |
[Co3(ndc)-(HCOO)3(mu3-OH)(H2O)]n |
[Co3Cl4(pmc)2(CH3OH)4] |
[Co4(mu4-O)(Me2pzCO2)3] |
[Co4(mu4-O)(pz/O2C)3] |
[Co4(OH)2(2)3DMF2] |
[Co5(H2O)2{(NO2)-C6H3-(COO)2}4(C2N3H2)2] |
[Co5(H2O)4{(NO2)-C6H3-(COO)2}4(C2N3H2)2]*2H2O |
[Co5{(NO2)C6H3-(COO)2}4(C2N3H2)2] |
[Co7(OH)4(H2O)2(ina)4(ip)3] |
[Co7(OH)4(H2O)2(ina)4(pip)3] |
[CoII2Cl2(bbta)]] |
[CoIICoIII(OH)Cl2(bbta)] |
[CoIII(dpzca)2Ag](BF4)2*2(H2O) |
[CoIII(dpzca)2Ag](BF4)2*2H2O |
[Cp*Ir^(III)(dcbpy)Cl]Cl |
[Cp*Ir^(III)(dcppy)Cl] |
[CpCu((CN)^t.Bu)]1@MOF-5 |
[CpCu(PMe3)]2@MOF-5 |
[Cu(1 |
[Cu(2-pySO3)2-(bpy)]*H2O |
[Cu(bcppm)H2O] |
[Cu(bdc)(ted)0.5]*2 DMF*0.2H2O |
[Cu(BF4)2(bpp)2]n |
[Cu(BF4)2(bpy)2] |
[Cu(bpy)(BF4)2(H2O)2*(bpy)]4 |
[Cu(bpy)(H2O)2(BF4)2](bpy) |
[Cu(bpy)2(BF4)2] |
[Cu(dhbc)2(bpy)]H2O] |
[Cu(dpa)2SiF6-i] |
[Cu(hfipbb)(H2hfipbb)0.5] |
[Cu(hfipbb)(Li2hfipbb)0.5] |
[Cu(Hoxonic)(bpy)0.5]n*1.5n |
[Cu(Hoxonic)(H2O)]n |
[Cu(Htci)(bpy)]*0.5H2O |
[Cu(INA)2(NH3)2(H2O)2] |
[Cu(INA)2] |
[Cu(INAIP)]*2H2O |
[Cu(L)1/3(H2O)]*8DMA |
[Cu(L)DMF]*2H2O |
[Cu(Me-prz-trz-ia)](373K) |
[Cu(Me-prz-trz-ia)](rt) |
[Cu(PF6)1.4(BF4)0.6(bpetha)2]n |
[Cu(PF6)2(bpetha)2]n |
[Cu(pmc)2].2/3DMF |
[Cu(ppmdc)(H2O)2] |
[Cu(pzdc)(2-meim)3]*DMF |
[Cu12(BTC)8][H3PW12O40] |
[Cu2(AcO)4-(CuTPyP)1/2] |
[Cu2(adc)2(dabco)]n |
[Cu2(bdc)2(bpy)]n |
[Cu2(bdc)2(dabco)]bulk |
[Cu2(bdc)2(dabco)]n |
[Cu2(BME-bdc)2(dabco)]n |
[Cu2(bza)4(pyz)]n |
[Cu2(C2v-mdip)(H2O)2]*3DMSO |
[Cu2(EBTC)(H2O)2]*8H2O*DMF*DMSO |
[Cu2(glu)2(mu-bpp)]*2H2O |
[Cu2(H2btp)(H2O)2(12-bis(4-pyridl)ethylene)] |
[Cu2(H2btp)(H2O)2(13-bis(4-pyridl)propane)] |
[Cu2(H2btp)(H2O)2(bipyridine)] |
[Cu2(L)(H2O)2] |
[Cu2(L)(H2O)6] |
[Cu2(L)2(SO4)(Br)2] |
[Cu2(L)2(SO4)-(Br)2]*4H2O |
[Cu2(L-H4)*(H2O)2]*18DMF*5H2O |
[Cu2(m-OH)2(bdim)] |
[Cu2(m3-ade)2(m2-OOC(CH2)2CH3)2]n Metal/butanoic Acid/TMB 1/20/2 |
[Cu2(m3-ade)2(m2-OOC(CH2)2CH3)2]n Metal/butanoic/TMB Acid 1/1 |
[Cu2(m3-ade)2(m2-OOC(CH2)2CH3)2]n Metal/butanoic/TMB Acid 1/10 |
[Cu2(m3-ade)2(m2-OOC(CH2)2CH3)2]n Metal/butanoic/TMB Acid 1/20 |
[Cu2(m3-ade)2(m2-OOC(CH2)2CH3)2]n Metal/butanoic/TMB Acid 1/5 |
[Cu2(Me4BPDC)2]*9DMF |
[Cu2(ndc)2(dabco)] |
[Cu2(ndc)2(dabco)]n |
[Cu2(obb)2(bpy)0.5(DMF)]*2DMF |
[Cu2(pcp)2bipy]*5H2O]n |
[Cu2(pzdc)2(pyz)]*2H2O} |
[Cu2(pzdc)2(pyz)]n |
[Cu24(CN)4(btc)12(dabco)9(H2O)6]*8(NO3) |
[Cu2L2(ted)]n |
[Cu3(bpac)3(CO3)2](ClO4)2 H2O |
[Cu3(C9H3O6)2(H2O)3]2Na3PW12O40*nH2O |
[Cu3(cdm)4] |
[Cu3(dmtrz)2(OX)2-(H2O)2] |
[Cu3(ipO)2(pyz)2]n |
[Cu3(m-TATB)2Py(CH3OH)2] |
[Cu3(m3-OH)(C4H2N2O2)3(H3O)]*2C2H5OH*4H2O |
[Cu3(tci)2(bpp)2(H2O)]*3H2O |
[Cu3(TDPAH)(H2O)3] 13H2O 8DMA |
[Cu3([11:31-terphenyl]-445-tricarboxylate)2(14-diazabicyclo[2.2.2]octane)](elongated) |
[Cu3([11:31-terphenyl]-445-tricarboxylate)2(14-diazabicyclo[2.2.2]octane)](spindle) |
[Cu3([11:31-terphenyl]-445-tricarboxylate)2(14-diazabicyclo[2.2.2]octane)](truncated) |
[Cu3L3(hmt)]n |
[Cu3L3]*H2O |
[Cu4(mu4-O)(mu2-OH)2(Me2traz-pba)4] |
[Cu4(oba)4(DMF)4] |
[Cu4(OMe)4(MeOH)(LC3)4(BPE)] |
[Cu4I3(DABCO)2]I |
[Cu6(AcNTB)6]*0.5I3*5.5ClO4*38H2O |
[Cu6(AcNTB)6]*1.25I3*4.75ClO4*40H2O |
[Cu6(AcNTB)6]*1.5I*4.5ClO4*20H2O |
[Cu6(AcNTB)6]*3I3*3ClO4*n(H2O) |
[Cu6(AcNTB)6]*4.5I3*1.5ClO4*n(H2O) |
[Cu6(AcNTB)6]*6I*n(H2O) |
[Cu@Mg-MOF] |
[CuCl2(bpetha)]n |
[CuL]2[SiMo12O40]*6H2O |
[CuL]3[PMo12O40]2*6H2O |
[Cu^II2L(H2O)(ClO4)]*ClO4*2H2O |
[Cu^II2L(N3)2]*2H2O |
[Dy(L)(bpdc)0.5(phen)] |
[Dy2(BDC)3(DMF)2(H2O)2] |
[DyNaL(H2O)4]*6H2O |
[Eu(BDC)(NO3)(DMF)2] |
[Eu(BDC)(NO3)(DMF)2](LT) |
[Eu(L)(bpdc)0.5(phen)] |
[Eu(pdc)1.5(dmf)]*(DMF)0.5(H2O)0.5 |
[Eu2(BDC)3(DMF)2(H2O)2] |
[Eu2(BDC)3(DMF)2]*(DMF)1.7 |
[Eu2(bpdc)3(HCOOH)2] |
[Fe(bpac)Ni(CN)4] |
[Fe(bpac)Pd(CN)4] |
[Fe(bpac)Pt(CN)4] |
[Fe(btzx)3](ClO4)2 |
[Fe2(BPEB)3] |
[Fe2+(tdc)(bpy)] |
[Fe2NiO(Piv)6(L1)]n |
[Fe3(O)(pmc)5.3(O2CH)0.7]*DMF |
[Fe^(III)(Tp)(CN)3]4Co^(II)2 |
[Gd(L)(bpdc)0.5(phen)] |
[Gd(Oba)(Ox)0.5(H2O)2] |
[Gd2(bpdc)3(HCOOH)2] |
[H2N(CH3)2]4[Zn8O(IMDC)6] |
[H2N(CH3)2][Zn3(TATB)2-(HCOO)]*HN(CH3)2*3DMF*3H2O |
[H2N(Me)2]2[Zn4(L)2(H2O)1.5] |
[H3O][In(btec)]*0.8H2O |
[HDMA]2-[Zn2(BDC)3(DMA)2]*6DMF |
[Ho(C3H6O9)]*CH3OH |
[HSm{VO(TPPS)}]n |
[H[Mg(HCOO)3]]inf |
[In(aip)(mu2-OH)]n*3nH2O |
[In2(Hsip)2(mu2-OH)2(H2O)]n*2nH2O |
[In2(pydc)3(H2O)]*0.5I2*0.5H2O |
[Ir^ (III)(ppy)2(dcbpy)]Cl |
[Ir^(III)(dcppy)2(H2O)2] |
[K+SNU-200' SCN-] |
[KCo7(OH)3(ip)6(H2O)4]*12H2O |
[La(BTB)(H2O)3DMF]n Activated |
[La(TATAB)(H2O)].6H2O |
[La-(pyzdc)1.5(H2O)] 0.5 H2O |
[La2(bpdc)3(HCOOH)2] |
[La2(ox)3(H2ox)(H2O)2](H2O)8 |
[La6(BDC)9(DMF)6(H2O)3*3DMF] |
[Li(C6H4NO2)2]*DMF |
[Li0.5(H3O)0.5]+[In(C16H6O8)]- |
[Li0.5H0.5]+[In(C16H6O8)]- |
[M(H2biim)3][M(Hbiim)(btc)]*2H2O |
[M(Hbiim)(btc)]*2H2O |
[Me-PCM-10]BF4 |
[Me-PCM-10]F |
[Me-PCM-10]I |
[Me-PCM-10]PF6 |
[Me2NH2]24[Tb12(TATB)16(HCOO)12].12DMF.48H2O ) solvent-free sample |
[Me2NH2]24[Tb12(TATB)16(HCOO)12].12DMF.48H2O ion exchange |
[Me2NH2]2[Cd2(bpdc)3]*4dma |
[Me2NH2]2[Cd2(NH2bdc)3]*4dma |
[Me2NH2][In(BPTC)] |
[Mg(H2diol)(DMF)2] |
[Mg16(PTCA)8(mu2-H2O)8(H2O)16(dioxane)8]*(H2O)13*(DMF)26 |
[Mg2(HCO2)2(NH2-BDC)(DMF)2] |
[Mg2(mu4-HmTPO)2(mu-H2O)(H2O)2]*2DEF |
[Mg3(ndc)3] |
[Mn(azpy)(NO3)2(H2O)2]*2EtOH |
[Mn(CH3OH)6]3[(Mn4Cl)3(BTT)8(CH3OH)12]2*42CH3OH |
[Mn(dmf)6]3[(Mn4Cl)3(btt)8(H2O)12]2*42DMF*11H2O*20CH3OH |
[Mn(mpto)2.CH3CH2OH]2 |
[Mn(ntd)(e-urea)] |
[Mn(PNMI)]*0.75DMF |
[Mn(ppmdc)(H2O)2] |
[Mn(ppmdc)(H2O)] |
[Mn-(DMF)6]3[(Mn4Cl)3(BTT)8(DMF)12]2 |
[Mn1.5(H2bdc)1.5(DMA)2] |
[Mn2(hfipbb)2(bpy)]n |
[Mn3(mu5-mTPO)(mu6-mTPO)(mu-H2O)(H2O)4]*2DMF*H2O |
[Mn3(TATB)2]n |
[Mn6(Haahz)6(bpea)2(dmf)2]n |
[Mn6-(Haahz)6(dmso)6] |
[MnII2Cl2(bbta)] |
[MnIII(3-MeOsal)2(MeOH)(H2O)] |
[MnIIMnIII(OH)Cl2(bbta)] |
[MoL][BF4]WYO |
[MV2+SNU-200']2Cl- |
[Na(Hidc)(H2idc)(H2O)2] |
[Na(Hidc)(H2O)] |
[Na2(NDA)(DMF)] |
[Na2Co(ipa)2]n |
[Na6(BTC-H2)3(H2O)15][PW12O40] |
[Nd(HCOO)3]n |
[Nd2(bpdc)3(HCOOH)2] |
[Nd6(BDC)9(DMF)6(H2O)3*3DMF] |
[NH2(CH3)2]2[Cd3(BTA)(BTC)2(H2O)]2*7DMAC*8H2O |
[NH2(CH3)2][Zn3(4-Pca)3(ade)].10DMF.8H2O |
[NH2(CH3)2][Zn3(BTA)(BTC)2(H2O)]*4DMAC*3H2O |
[NH2Et2][Zn(BTC)]*H2O |
[NH4+SNU-200']Cl- |
[Ni(bodc)(ted)0.5] |
[Ni(BPEB)] |
[Ni(dipn)]2[Ni(dipn)(H2O)][Fe(CN)6]2.2H2O |
[Ni(H2diol)(DMF)2] |
[Ni(H2diol)-(DEF)2] |
[Ni(H2diol)] |
[Ni(INAIP)(DMF)]*0.5DMF |
[Ni(INAIP)(H2O)]*2H2O |
[Ni(NCS)2(bpe)2]*3H2O*2C2H6SO |
[Ni(ox)(bpy)] |
[Ni(pca)(bdc)0.5(H2O)2] |
[Ni(pnta)2]*1.3DMF |
[Ni(ppmdc)(H2O)2] |
[Ni2(C2O4)(L)2]n*6nH2O |
[Ni2(C8H2O6)-(H2O)2]*8H2O |
[Ni2(dhtp)Mo0.5(CO)1.5] |
[Ni2(NCS)4(azpy)4]n |
[Ni3(bix)3(PTCO)2*(H2O)4.6H2O]n |
[Ni3(HCOO)6] 1a |
[Ni3(HCOO)6] 1b |
[Ni3(HCOO)6] 1c |
[Ni3(HCOO)6] 2a |
[Ni3(HCOO)6] 2b |
[Ni3(HCOO)6] 2c |
[Ni3(HCOO)6]-1a |
[Ni3(HCOO)6]-1b |
[Ni3(HCOO)6]-1c |
[Ni3(HCOO)6]-2a |
[Ni3(HCOO)6]-2b |
[Ni3(mu2-H2O)2(bdc)3(pyrazine)2]*3(DMA) |
[Ni4(dpa)4(pyz)4(H2O)8]*11H2O |
[Ni4(dpa)4(pyz)4] |
[Ni7(OH)4(H2O)2(ina)4(ip)3] |
[Ni7(OH)4(H2O)2(ina)4(pip)3] |
[Ni8(L1)6] |
[Ni8(L2)6] |
[Ni8(L3)6] |
[Ni8(L4)6] |
[Ni8(L5)6] |
[Ni8(L5-CF3)6] |
[Ni8(L5-CH3)6] |
[NiII(dpzca)2Ag]BF4*0.5(C3H6O) |
[NiL]2[SiMo2O40]*4H2O |
[Ni]-Ni-bypdc |
[P(NH4Py)4]Cl |
[Pb2@L]n |
[Pb3(4-nphth)2(OH)2] |
[PbL2]*2DMF*6H2O |
[PbL2]*DMF*2H2O |
[Pd(2-pymo)2]n |
[PO(NH4Py)3] |
[Pr2(NDC)2(NO3)2(DMA)4] |
[Pr3(NDC)4.5(DMF)3(H2O)] |
[Re^(I)(CO)3(dcbpy)Cl] |
[Rh(II)2(bza)4(2-epyz)]n |
[Rh(II)2(bza)4(pyz)]n |
[Rh2(4-Cl-2-OMePhCO2)4(THF)2 ] |
[Rh2(bza)4(pyz)]n |
[Rh2(p-F-PhCO2)4(phz)]*2PhNO2 |
[RhII2(bza)4(2-epyz)]n |
[Ru2(4-Cl-2-OMePhCO2)4(THF)2 ] |
[Ru2(p-F-PhCO2)4(phz)] |
[Ru2(p-F-PhCO2)4(phz)]*2PhNO2 |
[Ru^(II)(bpy)2(dcbpy)]Cl2 |
[Sm2(bpdc)3(HCOOH)2] |
[Sr(BDC) (H2O)] |
[Sr3(C7H2NO5)2(H2O)9](2H2O) |
[Tb(L)(bpdc)0.5(phen)] |
[Y2(BDC)3(DMF)2(H2O)2] |
[Zn(45-di(1H-tetrazol-5-yl)-123-triazole)]NN-dimethylacetamide |
[Zn(atz)(bdc)0.5] |
[Zn(bdc)(bphy)] |
[Zn(BDC)(H2O)2]n |
[Zn(bdc)(ted)0.5] |
[Zn(bdc)(ted)0.5]*2DMF*0.2H2O |
[Zn(BDC-NH2).(TED)0.5] |
[Zn(BDC-OH)-(TED)0.5] |
[Zn(BDOA)(bpy)(H2O)2] |
[Zn(BPEB)] |
[Zn(Br)(1-mbtz)] |
[Zn(BTA)2]n |
[Zn(dcpa)] |
[Zn(dpe)(bdc)]*4H2O |
[Zn(dtp)] |
[Zn(glu)(mu-bpe)] |
[Zn(glu)(mu-bpe)]*2H2O |
[Zn(Gly-Thr)2]*CH3OH |
[Zn(L) H2O] DMA |
[Zn(L)].4DMF-a |
[Zn(l-pzdc)(H2O)3] |
[Zn(L9)(phen)] 4H2O |
[Zn(NO2-BDC)(dmbpy).5](C2H6O)(H2O) |
[Zn(ntd)(e-urea)] |
[Zn(phen)(SDC)]n |
[Zn(PNMI)]*1.25EtOH*0.375H2O |
[Zn(PNMI)]*2DMA |
[Zn(ppmdc)(H2O)2] |
[Zn(ptp)(CH3OH)] |
[Zn(ptp)] |
[Zn(SiF6)(pyz)2]n |
[Zn(tbip)] |
[Zn(TCNQ-TCNQ)bpy] |
[Zn(TeGly)]n |
[Zn(trz)(tfpth)] |
[Zn(trz)(tfpth)] BSS |
[Zn(trz)(tfpth)] BSSP |
[Zn(trz)(tfpth)] Buch |
[Zn(Z-dhpe)] |
[Zn11(H2O)2(ur)4(bpdc)11] |
[Zn17thb14(mu4-O)4(H2O)(Me2NH2)]*Me2NH2 1a |
[Zn17thb14(mu4-O)4(H2O)(Me2NH2)]*Me2NH2 2a |
[Zn2(2)(py-R)2]n |
[Zn2(adc)2(dabco)]n |
[Zn2(bcta)(dipy)(mu2-OH)]*2DMF*H2O |
[Zn2(bdc)(S-lac)(dmf)] |
[Zn2(bdc)2(bphy)] |
[Zn2(bdc)2(dabco)] |
[Zn2(bdc)2(dabco)]n |
[Zn2(bdc)2(ted)] |
[Zn2(bdc)2(ted)]n |
[Zn2(bdc)2(ted)]n/PSt |
[Zn2(bdc)2ted]n |
[Zn2(bdc)2ted]n.pst |
[Zn2(bdc-(NO2)2)2(dabco)] |
[Zn2(bdc-Br)2(dabco)]n |
[Zn2(bdc-Cl2)2(dabco)]n |
[Zn2(bdc-NO2)2(dabco)]n |
[Zn2(BME-bdc)2(dabco)] |
[Zn2(BME-bdc)x(DB-bdc)2-xdabco] |
[Zn2(BME-bdc)x(DB-bdc)2-xdabco]n |
[Zn2(bpdc)2(bpe)] |
[Zn2(bpdc)2(bpee)*2DMF] |
[Zn2(bpdc)2(bpee)] |
[Zn2(bpdc)2(ted)] |
[Zn2(bpdc)2bpe]-2DMF |
[Zn2(btm)2] 1.5CO2 |
[Zn2(CN5H2)3(H2O)3]6H2O |
[Zn2(CN5H2)3(H2O)3]6H2O Ac |
[Zn2(CN5H2)3(H2O)3]6H2O TMC |
[Zn2(fu-bdc)2(dabco)]n |
[Zn2(hfipbb)(Li2hfipbb)0.5] |
[Zn2(ip)2(bpy)2]*DMF}n |
[Zn2(L)(btc)(Hbtc)][NH2(CH3)2]*(DMF)2(H2O)4 |
[Zn2(L)] |
[Zn2(L1)2(dabco)]n |
[Zn2(L2)2(dabco)]n |
[Zn2(L4)2(dabco)]n |
[Zn2(ndc)2(bpe)]*2.5DMF*0.25H2O |
[Zn2(ndc)2(dabco)]n |
[Zn2(obb)2(bpy)]*DMF |
[Zn2(OH)(1-mbtz)3H2O] |
[Zn2(pnta)3(OH)]*2DMF |
[Zn2(TBAPy)(H2O)2] |
[Zn2(TBC)2]2.3(H2O) |
[Zn2(TDC)2(BiPy-borane)] |
[Zn2(TDC)2(BiPy-dibromide)] |
[Zn2(TDC)2(BiPy-dihydroxide)] |
[Zn2(TDC)2(BiPy-epoxide)] |
[Zn2(TDC)2(BiPy-ethylsulfide)] |
[Zn2(tpa)2(cpb)] |
[Zn2(tzba)(DMF)]*0.5DM |
[Zn2+(tdc)(bpy)] |
[Zn2-(TDC)2(BiPy-olefin)] |
[Zn22(btc)12-(H2O)22(NO3)8) xguest-a |
[Zn22(btc)12-(H2O)22(NO3)8) xguest-b |
[Zn22(btc)12-(H2O)22(NO3)8) xguest-c |
[Zn2L(DPE)] 2.5DMF 2H2O |
[Zn3(bpdc)3(bpy)] |
[Zn3(bpdc)3bpy]*4DMF*H2O |
[Zn3(BTTTDTIOA)(H2O)3]n |
[Zn3(H2PO4)6(H2O)3](Hbim) |
[Zn3(HPO4)6](Hbim) |
[Zn3(IDC)2(mu2-H2O)H2O] |
[Zn3(OH)(p-CDC)2.5(DEF)4]n |
[Zn3(OH)2(btca)2] |
[Zn3(TCPB)2*2DEF]*3DEF |
[Zn3(TCPB)2*2H2O]*2H2O*4DMF |
[Zn3(TPATTTADTIOA)(H2O)3]n |
[Zn3(TPBTTTATIOA)(H2O)3]n |
[Zn3-(ntb)2]n |
[Zn3F2](Am2TAZ)4 |
[Zn3L2(btc)2(H2O)] |
[Zn3L2(HCOO)1.5][(CH3)2NH2]1.5 xDMF |
[Zn4(dmf)(ur)2(ndc)4] |
[Zn4(HMe4bpz)2(bpdc)3] |
[Zn4(L10)3(m3-OH)2(H2O)2]*2H2O*2EtOH |
[Zn4(mu4-O)(Me2pzCO2)3] |
[Zn4(O)(mip)3(DMF)2]*3(DMF)*(H2O) |
[Zn4O(bdc)(bpz)2]*4DMF*6H2O |
[Zn4O(dmcapz)3]n |
[Zn4O(L1)3]n |
[Zn4O(L2)3]n |
[Zn4O(L4)3]n |
[Zn4O(Me4BPDC)3]*9DMF |
[Zn4O(mecapz)3]n |
[Zn4O(mecapz)3]n on [Zn4O(dmcapz)3]n |
[Zn4O(mipcapz)3]n |
[Zn4O(mipcapz)3]n on [Zn4O(dmcapz)3]n |
[Zn4O(mipcapz)3]n on [Zn4O(mecapz)3]n |
[Zn4O(mpcapz)3]n |
[Zn4O(mpcapz)3]n on [Zn4O(dmcapz)3]n |
[Zn5(mu3-O)2(bpdc)4(DMF)2(EtOH)2]*3(DMF)*3(EtOH)*5(H2O) |
[Zn5(mu3-OH)4L2]*7H2O*DMF |
[Zn6(mu6-O)(TPO)2]-(NO3)4-3H2O |
[Zn6-(IDC)4(OH)2(Hprz)2]n |
[Zn7O2(pda)5(H2O)2]*5DMF*4EtOH*6H2O |
[Zn9(Me2bta)12(NO3)6*3DMF] |
[ZnCl(BBTA)0.5(DMA)] |
[ZnF](Am2TAZ) |
[ZnL(bipy)]*DMF*H2O |
[ZnL(bpa)]*4H2O |
[ZnL(bpe)]*1.5H2O |
[ZnL(bpp)]*1.75H2O |
[ZnO]1@MOF-5 |
[ZnO]2@MOF-5 |
[ZnO]5@MOF-5 |
[Zr6O4(OH)4(DMTDC)6] 4.8DMF 10H2O |
[{(Zn0.25)8(O)}Zn6(L)12(H2O)29(DMF)69(NO3)2] |
[{Co(F-pymo)2}n]*2.5nH2O |
[{Co0.21Zn0.79(F-pymo)2}n]*2.5nH2O |
[{Co2(L)-(bpe)(H2O)}*5H2O]n |
[{Cu(H-pymo)2}n] |
[{Cu(sala)}n] |
[{Cu2pzdc2-(pyz)}n] 26Micron |
[{Cu2pzdc2-(pyz)}n] 2Micron |
[{Cu2pzdc2-(pyz)}n] 70Micron |
[{Fe(NCS)2}3(TPB)4] |
[{Fe2NiO(Piv)6}8{L2}]n |
[{Zn(F-pymo)2}n]*2.5nH2O |
[{Zn(L)(H2O)2}(NO3)2*2H2O]n |
[{[Ni(cyclam)]2(mtb)}n]*3nEtOH |
[{[Ni(cyclam)]2(mtb)}n]*8nH2O*4nDMF |
{(H2PIP)0.5[VO(CEP)]*H2O} |
{Ag3[Ag5(mu3-3,5-Ph2tz)6](NO3)2}n |
{Ag3[Ag5(mu3-3,5-tBu2tz)6](BF4)2}n |
{Cd2(H3O)2[{Cd4(mu4-O)}3(hett)8]*4H2O} |
{Cd2(Z-dhpe)2*5H2O*2EtOH} |
{Ce(tci)}n |
{Co2(BTC)Cl(DEF)3}n |
{Co3(HCOO)(BTB)2(DEF)*(N(C2H5)2)}n |
{Co3O(BTB)2(DMF)*2(N(CH3)2)*(H2O)}n |
{Co3O(HBTC)2(H2O)(DMF)}n |
{Cu2(Glu)2(mu-bpa)}*(CH3CN) |
{Cu2(Glu)2(mu-bpp)}*(C3H6O) |
{Cu2[CuII(NO3)2(bcppm)2](DMF)2}*2DMF |
{Cu4[CuI(bcpdmpm)2]2(EtOH)2(H2O)2}(NO3)2*12DMF |
{Fe(bpac)[Pt(CN)4]} |
{Fe(dpe)[Pt(CN)4]}*0.5(dpe) |
{Fe(dpe)[Pt(CN)4]}*C10H8 |
{Fe(dpe)[Pt(CN)4]}*C12H8N2 |
{Fe(dpe)[Pt(CN)4]}*C14H10 |
{FeII(pyrazine)[PtII(CN)4]} |
{H2[Zn6(?4-O)(TATB)4]}n |
{Li2[Zn3(BDC)4]} |
{Pb2(H3O)2[{Pb4(mu4-O)}3(hett)8]*4H2O} |
{Zn(L1)] DMF) infinity |
{Zn(ptp)-(H2O)]2 |
{Zn(Z-dhpe)*3H2O*EtOH} |
{Zn2(adc)2(dabco)}n |
{Zn2(bdc)2-(dabco)}n |
{[(Me2NH2)2]*[Cd3(5-tbip)4]*2DMF}n |
{[(NiLallyl)2(BuTC)]*2DEF*2H2O} |
{[(NiLallyl)2(BuTC)]*3H2O} |
{[Ag2(bpp)2](heda)*8H2O} |
{[Ag2(H2O)2(bpp)2](oba)*4H2O} |
{[Cd(4-btapa)2(NO3)2]*6H2O*2DMF}n |
{[Cd(4-btapa)2(NO3)2]*6MeOH*yH2O}n |
{[Cd(4-btapa)2]*2NO3}n |
{[Cd(bpndc)(bpy)]}n |
{[Cd(BTC)0.66(BPz)2]*6H2O}n |
{[Cd(L)(H2O)]*3H2O} |
{[Cd(l-pzdc)(N-mim)3]*3H2O} |
{[Cd(lpzdc)(im)3]*0.13H2O} |
{[Cd(mu-Cl)(mu -Hpzdc)]*H2O}n |
{[Cd(pzbtz)]3H2O}n |
{[Cd2(L)2(phen)2(H2O)2]} |
{[Cd2(NNNN-tetrakis(4-(4-pyridine)-phenyl biphenyl-44-diamine)(bpdc)1.5(H2O)2](CO3)0.5} |
{[Cd2(TPPBDA)(OBA)2] 4DMA 8H2O}n |
{[Cd3(L)4](H2O)-(CH3OH)3(Hdmpy)2} |
{[Cd4(3-tzba)4(H2O)2]*2H2O |
{[Cd4(azpy)2-(pyrdc)4(H2O)2]*9H2O} |
{[Cd4(azpy)2-(pyrdc)4(H2O)2]} |
{[CdNa(2-stp)(dabco)0.5(H2O)]*2H2O} |
{[Ce(tci)(H2O)2]*2H2O}n |
{[Ce(tci)*H2O]*4H2O}n |
{[Co(bpy)(OTf)2-(H2O)2]*(bpy)} |
{[Co(bpy)2(CH3CN)2(H2O)2]*2(OTf)} |
{[Co(dcpy)(bipy)0.5(H2O)]*H2O} |
{[Co(dcpy)(bipy)0.5]*H2O} |
{[Co(dipp)(dptz)0.5]4}n |
{[Co(dpt24)2)]*0.5DMF}n |
{[Co(dpt24)2)]2*H2O}n |
{[Co(L)]*2DMF} |
{[Co2(L)2(DMF)]*n(solv)} |
{[Co2(L)Cl(DMF)2(H2O)]*Sx}n Desolvated |
{[Co3(dpt24)6]*4DMF*1.5H2O}n |
{[Co3(L)3(DMF)0.5(H2O)1.5]*n(solv)} |
{[Co6(mu3-OH)2(IN)4-(HCOO)6]4DMF5H2O}n |
{[Cu(4-bcba-H)]*H2O}n |
{[Cu(azpy)(glut)](H2O)2} |
{[Cu(azpy)(glut)]} |
{[Cu(bpetha)2(DMF)2]*2PF6}n |
{[Cu(bpy)2(OTf)2]*2EtOH*H2O} |
{[Cu(CF3SO3)(bpp)2]*CF3SO3*2acetone} |
{[Cu(II)(en)2*H2O]*[Cu(I)2(CN4)]}n |
{[Cu(ina)2(H2O)][Cu(ina)2(bipy)]*2H2O}n |
{[Cu(ina)2(H2O)][Cu(ina)2(bipy)]}n |
{[Cu(l3-pzdc)(2-meim)2Cu(l-pzdc)(2mim)]*CH3OH*2H2O} |
{[Cu(tba)2](DMF)} |
{[Cu-(CF3SO3)2(bpp)2]*H2O} |
{[Cu2(4-pmpmd)2(CH3OH)4(opd)2]*2H2O} |
{[Cu2(C10H2O8)-(H2O)6]*4H2O}n |
{[Cu2(mu-Cl)2( Mu3-Hpzdc)(Cl)(H2O)2]*1.5H2O}n |
{[Cu2(pzdc)2(bpe)]*5H2O} |
{[Cu2(pzdc)2(bpy)]*4H2O} |
{[Cu4(dpdo)12][H(H2O)27(CH3CN)12][PW12O40]3}n |
{[Dy(ox)(Bpybc)(H2O)]*OH*13H2O}n |
{[Eu2Zn19(atz)18(ox)9(Cl)8]*17H2O} |
{[Fe(dpe)[Pt(CN)4]}*0.5(dpe)*H2O |
{[Gd(tci)*H2O]*4H2O}n |
{[Gd2Zn19(atz)18(ox)9(Cl)8]*17H2O} |
{[HDMA]2[Zn3(BDC)4]} |
{[Ln(ntb)Cl3]*xH2O}n |
{[Mg(HIDC)(H2O)2]*1.5H2O}n |
{[Mg2(HL)2(H2O)4]*H2O}n |
{[Mg3(ndc)2.5(HCO2)2(H2O)][NH2Me2]2H2ODMF} |
{[Mn(L)(H2O)](H2O)1.5(DMF)}n |
{[NH2(CH3)2][Zn(atz)(ox)]$H2O}n |
{[Ni(bpe)2(N(CN)2)](N(CN)2)}n |
{[Ni(bpe)2(N(CN)2)](N3)}n |
{[Ni(cyclam)]2(mtb)}n]*8nH2O*4nDMF |
{[Ni(Hptz)2] 7H2O}n |
{[Ni(tipb)(atpa)](solvents)}n |
{[Ni(tipb)(pta)](solvents)}n |
{[Pr(tci)(H2O)2]*2H2O}n |
{[Tb(FDA)1.5(DMF)]*DMF} |
{[Tb2Zn19(atz)18(ox)9(Cl)8]*17H2O} |
{[Zn(bpydb)(bpy)](DMA)-(EtOH)6}n |
{[Zn(INAIP)(DMF)]*0.5DMF*4H2O}n |
{[Zn(l-pzdc)(NH3)2(H2O)]*H2O} |
{[Zn(m4-TCNQ-TCNQ)bpy]*1.5benzene}n |
{[Zn(NO2-ip)(dpndi)]*(DMF)1.5(MeOH)1.5 |
{[Zn(NO2-ip)-(bpy)]*(DMF)0.5(MeOH)0.5} |
{[Zn(oxo-pba)2(bpy)]4H2O}n |
{[Zn(ppmdc)(H2O)2]*H2O} |
{[Zn-(C10H2O8)0.5(C10S2N2H8)]*5H2O]}n |
{[Zn2(bpdc)2(azpy)]*2H2O*2DMF}n |
{[Zn2(bpdc)2(azpy)]*2H2O*2DMF}n Nanoscale |
{[Zn2(btdc)2(bpy)]*xS}n |
{[Zn2(btdc)2-(bpy)]*yS}n |
{[Zn2(H2dht)(dht)0.5)(azpy)0.5]} |
{[Zn2(L)(OH)]*2DMF*H2O}n |
{[Zn2(MTB)(H2O)2]*3H2O*3DMF}n |
{[Zn2(OH)(AZPY)(BDC)1.5]*H2O}n |
{[Zn2BIB1.5SPA(OH)(H2O)]*1.75H2O}n |
{[Zn3(bpdc)3(azpy)]*4H2O*2DEF}n |
{[Zn3(DLlac)2(pybz)2]*2.5DMF}n |
{[Zn3(L)3(DPB)1.5]-6DMF-H20}n |
{[Zn3(ntb)2-(EtOH)2]*4EtOH}n |
{[Zn3(ptp)3](DMF)2-(H2O)} |
{[Zn4(BDC)4(BPDA)4]*5DMF*3H2O} |
{[Zn4(bpydb)3(datz)2(H2O)](DMF)4(EtOH)5(H2O)8}n |
{[Zn4O(bfbpdc)3-(bpy)0.5(H2O)]*(3DMF)(H2O)}n |
{[Zn4O(L)3(DMF)2] xG}n |
{[ZnL(HCO2)(H2O)]*DMF} |
{[ZnL(HCO2)]*DMF*H2O} |
{[{Dy4(mu2-OH)}3(hett)8]*9NO3*6H2O} |
{[{Nd4(mu2-OH)}3(hett)8]*9NO3*6H2O} |