Highly Selective Carbon Dioxide Uptake by [Cu(bpy-n)2(SiF6)] (bpy-1 = 4,4′-Bipyridine; bpy-2 = 1,2-Bis(4-pyridyl)ethene)
about
Theoretical investigations of CO₂ and CH₄ sorption in an interpenetrated diamondoid metal-organic material.Crystal structure of 4,4'-bipyridine-1,1'-diium naphthalene-2,6-di-sulfonate dihydrate.Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds.MOFs for CO2 capture and separation from flue gas mixtures: the effect of multifunctional sites on their adsorption capacity and selectivity.Microporous metal-organic frameworks for gas separation.Finely tuning MOFs towards high-performance post-combustion CO2 capture materials.Gas/vapour separation using ultra-microporous metal-organic frameworks: insights into the structure/separation relationship.Solvent-vapour-assisted pathways and the role of pre-organization in solid-state transformations of coordination polymersChannels with ordered water and bipyridine mol-ecules in the porous coordination polymer {[Cu(SiF6)(C10H8N2)2]·2C10N2H8·5H2O} n.Unravelling exceptional acetylene and carbon dioxide adsorption within a tetra-amide functionalized metal-organic framework.Microporous metal-organic framework with dual functionalities for highly efficient removal of acetylene from ethylene/acetylene mixtures.Crystal structure of bis-(μ-2-benzoyl-benzoato-κ(2) O:O')bis-[bis-(2,2'-bi-pyridine-κ(2) N,N')manganese(II)] bis-(perchlorate).Molecular tectonics: homochiral 3D cuboid coordination networks based on enantiomerically pure organic tectons and ZnSiF6.Two novel MOF-74 analogs exhibiting unique luminescent selectivity.Structural diversity and magnetic properties of five copper-organic frameworks containing one-, two-, and three-types of organic ligands.Screening and evaluating aminated cationic functional moieties for potential CO(2) capture applications using an anionic MOF scaffold.Pillar substitution modulates CO2 affinity in "mmo" topology networks.A flexible porous Cu(II) bis-imidazolate framework with ultrahigh concentration of active sites for efficient and recyclable CO2 capture.Framework isomers controlled by the speed of crystallization: different aggregation fashions of Zn(II) and 1,2,4-triazol-3-amine, distinct (3,4)-connected self-penetrating nets, and various pore shapes.Crystalline capsules: metal-organic frameworks locked by size-matching ligand bolts.The Utilization of Amide Groups To Expand and Functionalize Metal-Organic Frameworks Simultaneously.The role of weak interactions in controlling the mode of interpenetration in hybrid ultramicroporous materials.Highly selective CO2vs. N2 adsorption in the cavity of a molecular coordination cage.Continuous One-Step Synthesis of Porous M-XF6 -Based Metal-Organic and Hydrogen-Bonded Frameworks.A highly crystalline oriented metal-organic framework thin film with an inorganic pillar.Defect engineering of UiO-66 for CO2 and H2O uptake - a combined experimental and simulation study.New amine-functionalized cobalt cluster-based frameworks with open metal sites and suitable pore sizes: multipoint interactions enhanced CO2 sorption.Isostructural metal-organic frameworks assembled from functionalized diisophthalate ligands through a ligand-truncation strategy.Overcoming double-step CO2 adsorption and minimizing water co-adsorption in bulky diamine-appended variants of Mg2(dobpdc).Fluorocarbon adsorption in hierarchical porous frameworks.Comparison of gas sorption properties of neutral and anionic metal-organic frameworks prepared from the same building blocks but in different solvent systems.Enhancement of adsorption selectivity for MOFs under mild activation and regeneration conditions.Molecular tectonics: heterometallic coordination networks based on a Pt(II) organometallic metallatecton.Water molecule-driven reversible single-crystal to single-crystal transformation of a multi-metallic coordination polymer with controllable metal ion movement.An unusual H2 sorption mechanism in PCN-14: insights from molecular simulation.Controlling interpenetration in metal–organic frameworks by tuning the conformations of flexible bis(triazole) ligandsSelective adsorption of carbon dioxide by carbonized porous aromatic framework (PAF)Enhancement of CO2 selectivity in a pillared pcu MOM platform through pillar substitutionTwo homochiral organocatalytic metal organic materials with nanoscopic channelsA pillared metal–organic framework incorporated with 1,2,3-triazole moieties exhibiting remarkable enhancement of CO2 uptake
P2860
Q33746282-56B718A0-790E-4EB8-8C9A-08A529DACCDCQ34291652-EB38EC29-7667-483A-ACBE-8CDDFE0BF0E9Q36191359-DC360F62-3893-4C3A-82EA-94C40DC900DAQ38059714-441EE9C2-9A05-4B09-8A73-A96143E3064AQ38199449-77A640F5-CB23-4FC8-8B32-7A84D8E8BC2CQ38619088-3394D8B6-EE0B-4E80-9F91-F155E77A1ACAQ39337089-77475D77-B714-4704-AD42-ED72070683A6Q39481316-15DD9B69-9898-4902-A3DD-54F75226530FQ41672654-0BB7E5E6-DD41-42DD-AEC2-ADE04B96B700Q42321457-F18DCDD5-9E7F-456E-B16C-893BA0F3A2A1Q42430055-B430A9EF-9750-4333-B9C7-7FDC70C9176BQ42687748-41E0095B-8727-4E81-9BED-6BBE1D89CE91Q44520001-DBB4E6CE-86E9-4917-BA96-A6C664E441ACQ44772829-CCAB72B9-7AF4-49CD-9810-8C1373F57511Q45168165-DFBDC6C2-51BA-4206-A076-7E1240D55F7DQ45811526-4A063EDC-BE28-4CF2-A93E-11737F0F832DQ46627478-9DBEBDBD-CFFE-4D77-A106-A41E968F193FQ46820784-484885B2-6113-4AD6-BECF-246D43550DBEQ46885681-44DE1797-A6D2-43AE-B6A3-EDC8632C960CQ47398415-F9864FD7-552A-4C8F-B4E6-E48DCC1E96F0Q47841315-A5C9713A-E187-4069-A3F1-FB1D104EE358Q48088608-46DBE8CE-17D5-4A69-B28E-BE14B423FB9DQ48317793-8ED28496-44E3-499B-BF4E-6AE53FA89308Q48332453-B79930AC-E667-445D-B999-BA47A3D73C1DQ50260182-FC23298A-C486-419A-8D45-C78DC2D959ACQ51524928-97ECE17F-AC86-4E14-87E0-855F5F01FE77Q51792382-7AF6F3C7-01FB-49E1-81F5-BE96D93B428BQ51828249-26F3DC43-1069-4D5A-A8FC-3F444EE18818Q52599605-7676B163-D366-4061-BA19-5341AB4E82E5Q53271002-3377C95C-43F8-40D3-8C32-512F313BF659Q53305064-165BAAC0-A003-46DE-A852-572830B995B9Q53532753-E57234A1-C891-4895-863C-1B290DFA73DFQ53608452-F6393173-BBE0-4999-B1D1-26DC2849B02BQ53642485-381DA9F8-43B2-4491-A9A6-DFBBED4C801FQ53778535-8278A972-4BA9-4A27-8C87-DD4701E7FD95Q57385209-222207CD-CA1F-432E-BC99-031B2B332B1CQ57659827-15B7477B-984E-428D-8A6E-770D81780937Q57834013-97CE90E0-F433-49EA-AC56-ED52938BFD86Q57834018-5649BD80-CEE3-42F4-B7BB-F2B81D581BE0Q57834022-2314DF08-1E93-4FA7-9FA5-30E4800267F4
P2860
Highly Selective Carbon Dioxide Uptake by [Cu(bpy-n)2(SiF6)] (bpy-1 = 4,4′-Bipyridine; bpy-2 = 1,2-Bis(4-pyridyl)ethene)
description
im Februar 2012 veröffentlichter wissenschaftlicher Artikel
@de
scientific article published on 15 February 2012
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 2012
@uk
name
Highly Selective Carbon Dioxid ...... -2 = 1,2-Bis(4-pyridyl)ethene)
@en
Highly Selective Carbon Dioxid ...... -2 = 1,2-Bis(4-pyridyl)ethene)
@nl
type
label
Highly Selective Carbon Dioxid ...... -2 = 1,2-Bis(4-pyridyl)ethene)
@en
Highly Selective Carbon Dioxid ...... -2 = 1,2-Bis(4-pyridyl)ethene)
@nl
prefLabel
Highly Selective Carbon Dioxid ...... -2 = 1,2-Bis(4-pyridyl)ethene)
@en
Highly Selective Carbon Dioxid ...... -2 = 1,2-Bis(4-pyridyl)ethene)
@nl
P2093
P50
P356
P1476
Highly selective carbon dioxid ...... -2 = 1,2-bis(4-pyridyl)ethene)
@en
P2093
Benjamin J Sikora
Stephen D Burd
P304
P356
10.1021/JA211340T
P407
P577
2012-02-15T00:00:00Z