Dynamic photo-switching in metal-organic frameworks as a route to low-energy carbon dioxide capture and release.
about
Materials Genome in Action: Identifying the Performance Limits of Physical Hydrogen StoragePhotoinduced reversible switching of porosity in molecular crystals based on star-shaped azobenzene tetramers.Temperature-regulated guest admission and release in microporous materials.An electrically switchable metal-organic framework.Light-triggered Supramolecular Isomerism in a Self-catenated Zn(II)-organic Framework: Dynamic Photo-switching CO2 Uptake and Detection of Nitroaromatics.Light driven mesoscale assembly of a coordination polymeric gelator into flowers and stars with distinct properties.Flexible interlocked porous frameworks allow quantitative photoisomerization in a crystalline solidVersatile, high quality and scalable continuous flow production of metal-organic frameworksSyntheses and characterization of two novel tetranuclear lead(II) clusters self-assembled by hydrogen bonded interactionsDynamic photo-switching in light-responsive JUC-62 for CO 2 capture.Photochromism into nanosystems: towards lighting up the future nanoworld.Significant Enhancement of C2 H2 /C2 H4 Separation by a Photochromic Diarylethene Unit: A Temperature- and Light-Responsive Separation Switch.Immobilizing Organic-Based Molecular Switches into Metal-Organic Frameworks: A Promising Strategy for Switching in Solid State.Reversible Pressure-Controlled Depolymerization of a Copper(II)-Containing Coordination Polymer.Matrimid-JUC-62 and Matrimid-PCN-250 mixed matrix membranes displaying light-responsive gas separation and beneficial ageing characteristics for CO2/N2 separation.Reversible photo/thermoswitchable dual-color fluorescence through single-crystal-to-single-crystal transformation.Structural Effects in Visible-Light-Responsive Metal-Organic Frameworks Incorporating ortho-Fluoroazobenzenes.Exceptional adsorption-induced cluster and network deformation in the flexible metal-organic framework DUT-8(Ni) observed by in situ X-ray diffraction and EXAFS.Magnetic Metal-Organic Frameworks for Efficient Carbon Dioxide Capture and Remote Trigger Release.Converting 3D rigid metal-organic frameworks (MOFs) to 2D flexible networks via ligand exchange for enhanced CO2/N2 and CH4/N2 separation.Smart adsorbents with reversible photo-regulated molecular switches for selective adsorption and efficient regeneration.A Robust Metal-Organic Framework for Dynamic Light-Induced Swing Adsorption of Carbon Dioxide.Structural transformation and hysteretic sorption of light hydrocarbons in a flexible Zn-pyrazole-adenine framework.Photopatterning of fluorescent host-guest carriers through pore activation of metal-organic framework single crystals.An electron-transfer photochromic crystalline MOF accompanying photoswitchable luminescence in a host-guest system.A pH-responsive phase transformation of a sulfonated metal–organic framework from amorphous to crystalline for efficient CO2captureTwo new polar coordination polymers with diamond networks: interpenetration and thermal phase transition
P2860
Q30845234-2995AD05-3FDF-4850-95E3-ACBC428FCFAFQ30982113-A4C0A3DA-240A-4283-823B-873EC873297EQ33804503-76CEF86B-C642-4B8E-AE80-1239B5D7E467Q34063263-11E70613-6FD7-42F2-B3B7-F68AAF8EA9CDQ37325462-849EAFC5-0983-4686-BB41-5DE4D7771840Q40989914-2D33BF8F-AF8A-4520-8904-A7959EE22D8AQ41107889-825A95D3-41FF-47C4-B82C-123DF8305AB3Q41126770-5D2019BF-C720-487A-9C19-78AD2B4D9D4CQ41574933-B313686D-83F2-4D13-B4A8-0D3B55E02049Q42657296-6F7AEED2-8648-4CBA-B283-1FDE7281AC68Q47240597-3EF84FCE-253C-4741-AC21-3B1E376C9833Q47875317-E467A6E2-B4B6-4E85-849A-DDCEBEBF64DEQ47949158-4EA89356-7F76-446C-9A2E-FC69F2A6BE05Q48366560-45C5901B-DEF5-4B02-A7AB-34A4640765C8Q50025584-64914405-D5B1-46CD-B5FA-3801EF87BCF5Q50192965-FC0C9EBC-4865-4C6F-805C-7EB461E08C76Q50206782-43E73869-8168-4997-A25E-93EF767595E4Q50544977-0036B738-3034-466F-BE37-ACFF6ECE9A5FQ50896200-5E60DAFC-21F0-498D-9BA0-C2513B293C3BQ50949070-24AE1D18-8B77-406B-9786-CA03AAC4AA37Q51143895-06D1BB3C-DD40-47CA-A186-1FEACFCC1EE9Q51300632-4516FF83-69FB-4DE3-848C-FF9DB5BB9534Q51654257-38691FC7-AF3B-4378-A01A-554AD95A4ACDQ52773648-6FDB67B7-7230-4ABF-A906-3EA16EF47263Q53409153-933F6375-391E-4F39-BB72-EF153EA50043Q57366917-49C4B61E-5FAA-4B78-80E3-1E5F779C3372Q57732530-0F749637-8A68-4F97-81C9-78DBC96EF168
P2860
Dynamic photo-switching in metal-organic frameworks as a route to low-energy carbon dioxide capture and release.
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-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
2013年學術文章
@zh-hant
name
Dynamic photo-switching in met ...... n dioxide capture and release.
@en
Dynamic photo-switching in met ...... n dioxide capture and release.
@nl
type
label
Dynamic photo-switching in met ...... n dioxide capture and release.
@en
Dynamic photo-switching in met ...... n dioxide capture and release.
@nl
prefLabel
Dynamic photo-switching in met ...... n dioxide capture and release.
@en
Dynamic photo-switching in met ...... n dioxide capture and release.
@nl
P2093
P50
P356
P1476
Dynamic photo-switching in met ...... on dioxide capture and release
@en
P2093
Bradley P Ladewig
Kristina Konstas
Richelle Lyndon
P304
P356
10.1002/ANIE.201206359
P407
P577
2013-02-10T00:00:00Z