A water stable metal-organic framework with optimal features for CO2 capture.
about
Gel-based morphological design of zirconium metal-organic frameworks.Functionalization of Zr-based MOFs with alkyl and perfluoroalkyl groups: the effect on the water sorption behavior.A combinatorial approach towards water-stable metal-organic frameworks for highly efficient carbon dioxide separation.High valence 3p and transition metal based MOFs.Synthesis of MOFs: a personal view on rationalisation, application and exploration.Zr-based metal-organic frameworks: design, synthesis, structure, and applications.Revealing the structure-property relationship of covalent organic frameworks for CO₂ capture from postcombustion gas: a multi-scale computational study.Water-based synthesis and characterisation of a new Zr-MOF with a unique inorganic building unit.Gas/vapour separation using ultra-microporous metal-organic frameworks: insights into the structure/separation relationship.Gas confinement in compartmentalized coordination polymers for highly selective sorption.A single-ligand ultra-microporous MOF for precombustion CO2 capture and hydrogen purification.A robust, catalytic metal-organic framework with open 2,2'-bipyridine sites.Proton Transport in a Highly Conductive Porous Zirconium-Based Metal-Organic Framework: Molecular Insight.Incorporation of Alkylamine into Metal-Organic Frameworks through a Brønsted Acid-Base Reaction for CO2 Capture.Carbon dioxide capture and conversion by an acid-base resistant metal-organic framework.Ligand and Metal Effects on the Stability and Adsorption Properties of an Isoreticular Series of MOFs Based on T-Shaped Ligands and Paddle-Wheel Secondary Building Units.Selective and Efficient Removal of Mercury from Aqueous Media with the Highly Flexible Arms of a BioMOF.A super water-stable europium-organic framework: guests inducing low-humidity proton conduction and sensing of metal ions.Synthesis by extrusion: continuous, large-scale preparation of MOFs using little or no solvent† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c4sc03217a Click here for additional data file.Synthesis by extrusion: continuous, large-scale preparation of MOFs using little or no solvent.Theoretical study on the gas adsorption capacity and selectivity of CPM-200-In/Mg and CPM-200-In/Mg-X (-X = -NH2, -OH, -N, -F).Sizable dynamics in small pores: CO2 location and motion in the α-Mg formate metal-organic framework.A Porous Zirconium-Based Metal-Organic Framework with the Potential for the Separation of Butene Isomers.De facto methodologies toward the synthesis and scale-up production of UiO-66-type metal-organic frameworks and membrane materials.Design of hydrophilic metal organic framework water adsorbents for heat reallocation.A novel zinc(ii) metal-organic framework with a diamond-like structure: synthesis, study of thermal robustness and gas adsorption properties.Combination of Optimization and Metalated-Ligand Exchange: An Effective Approach to Functionalize UiO-66(Zr) MOFs for CO2 Separation.Chiral metal-organic frameworks bearing free carboxylic acids for organocatalyst encapsulation.A two-dimensional Cd(II) coordination polymer with 2,2'-(disulfanediyl)dibenzoate and 1,10-phenanthroline ligands.Impact of the Nature of the Organic Spacer on the Crystallization Kinetics of UiO-66(Zr)-Type MOFs.Highly efficient electrochemical reduction of CO2 to CH4 in an ionic liquid using a metal-organic framework cathode.A pH-responsive phase transformation of a sulfonated metal–organic framework from amorphous to crystalline for efficient CO2captureSyntheses, structures and gas sorption properties of two coordination polymers with a unique type of supramolecular isomerismThe use of a rigid tritopic phosphonic ligand for the synthesis of a robust honeycomb-like layered zirconium phosphonate frameworkAdsorption MethodologyFine-tuning optimal porous coordination polymers using functional alkyl groups for CH4 purificationSolvent-Mediated Reconstruction of the Metal-Organic Framework HKUST-1 (Cu3(BTC)2)
P2860
Q30355700-3119FE83-051A-4C89-86AD-91ADE243388AQ31006371-0F15F9C6-0CD7-46CA-BEA2-440F8A3F7694Q35225206-61A4E635-4FE2-40F3-B45F-C29434D955C0Q38221761-C7149216-5BC6-47C8-9595-53A3B9E0A6E9Q38671554-142F7BC9-BD9A-4F7C-9412-A0FF8F628571Q38737499-F0F8CC8C-8636-4B0C-A370-29DAC207C109Q39174661-8657B66A-6D5C-4025-BC94-10CAF9675A3DQ39306798-1942404B-49B4-4785-9146-B4E7D0E5B24AQ39337089-5CC07B4D-625F-40AF-8F08-E60A07EA9BA6Q42289962-A7A5EA38-FD65-463C-8BF2-87533AFEC097Q42697621-F9A3C8AD-6A35-4B70-8D3D-9705B5F81F7BQ45964719-1BC65234-64EB-4F54-87A1-B86E02F3729BQ45965023-B565F237-BEF5-487F-8BD7-DAF5AC83C43CQ46246776-C34B627F-2135-47F6-95B7-8BE28033A288Q46361317-22D1AB87-EB72-4163-8472-993B957B4EA8Q46474528-C63D3678-F620-443A-BB0C-A7F32962A687Q46501269-F3A8CE3E-CBA6-4F84-B402-8E3F95D65B26Q46871098-5D8FFD57-0A29-4427-8FAF-083B4746897BQ47132897-E4A8A392-DAAC-4B26-8A73-0F6FFF765EE4Q47193945-54FC3602-6D91-461B-95FC-F93C8A9CB635Q47566115-958EC366-1AA6-40F5-9738-8B2E553C4EBBQ47974441-ABE1CA36-C4BD-4488-BBCF-C09AC64A2EE6Q48370089-E911AF96-1B4D-4B6B-9629-64BCB2BF3376Q50241446-C17B48B8-3143-40C3-8C31-977F2ACCFBB1Q50254600-FF6466E9-05DA-4528-8CF5-6928A4086168Q50754845-6BF18C40-0EBA-4BB0-81B4-E87B76523888Q50922793-C5B96575-1212-4F87-B5A0-DD356D364570Q53394795-ABCE8E63-47BD-430A-AA90-8D45DC77768CQ53554286-D1D679D5-6AB2-4DD3-8D9E-0BDE767ED58BQ53573041-DC397B45-5781-4F5B-80C8-B5C079B68B16Q55262617-059C6362-3632-4EF0-9CFF-B105FEBC8D4FQ57366917-69AE72E6-1FA1-4F0D-B357-A175FAAA9B52Q57732459-9E912F6C-4CA2-4A67-9375-2F7FACDF09BEQ57825576-CB27F8EC-A86F-414B-8B91-3847BB1497D0Q58371743-2F2BD5EF-3001-4646-B74A-B9D28C8CA7F5Q59281502-9859EDBA-E185-4EFE-949E-BBCFF5C6B03AQ59325775-A432AA38-F95A-41D8-A3DF-EF06FB74611D
P2860
A water stable metal-organic framework with optimal features for CO2 capture.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh-hant
name
A water stable metal-organic framework with optimal features for CO2 capture.
@en
A water stable metal-organic framework with optimal features for CO2 capture.
@nl
type
label
A water stable metal-organic framework with optimal features for CO2 capture.
@en
A water stable metal-organic framework with optimal features for CO2 capture.
@nl
prefLabel
A water stable metal-organic framework with optimal features for CO2 capture.
@en
A water stable metal-organic framework with optimal features for CO2 capture.
@nl
P2093
P2860
P50
P356
P1476
A water stable metal-organic framework with optimal features for CO2 capture.
@en
P2093
Andrew D Wiersum
Charlotte Martineau
Chongli Zhong
Florence Ragon
Francis Taulelle
Guy De Weireld
Hervé Jobic
Thomas Devic
P2860
P304
10316-10320
P356
10.1002/ANIE.201302682
P407
P577
2013-06-20T00:00:00Z