Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
about
Stimuli-responsive hybrid materials: breathing in magnetic layered double hydroxides induced by a thermoresponsive molecule.Assessing chemical heterogeneity at the nanoscale in mixed-ligand metal-organic frameworks with the PTIR technique.Tunable thermal expansion in framework materials through redox intercalationSingle-crystal X-ray diffraction studies on structural transformations of porous coordination polymers.Structural studies of metal-organic frameworks under high pressure.An updated roadmap for the integration of metal-organic frameworks with electronic devices and chemical sensors.Screening metal-organic frameworks for separation of pentane isomers.Supramolecular-jack-like guest in ultramicroporous crystal for exceptional thermal expansion behaviour.Flexible Force Field Parameterization through Fitting on the Ab Initio-Derived Elastic Tensor.Controlling Thermal Expansion: A Metal-Organic Frameworks RouteForce-Field Prediction of Materials Properties in Metal-Organic Frameworks.Scrutinizing negative thermal expansion in MOF-5 by scattering techniques and ab initio calculations.Effect of gas pressure on negative thermal expansion in MOF-5.Volume shrinkage of a metal-organic framework host induced by the dispersive attraction of guest gas molecules.Elucidating the mechanism responsible for anomalous thermal expansion in a metal-organic framework.Mechanical Properties in Metal-Organic Frameworks: Emerging Opportunities and Challenges for Device Functionality and Technological Applications.Development of a force field for zeolitic imidazolate framework-8 with structural flexibility.Visualizing the Dynamics of Temperature- and Solvent-Responsive Soft Crystals.Extension of the QuickFF force field protocol for an improved accuracy of structural, vibrational, mechanical and thermal properties of metal-organic frameworks.A five-fold interpenetrated metal-organic framework showing a large variation in thermal expansion behaviour owing to dramatic structural transformation upon dehydration-rehydration.Joint Experimental and Computational Investigation of the Flexibility of a Diacetylene-Based Mixed-Linker MOF: Revealing the Existence of Two Low-Temperature Phase Transitions and the Presence of Colossal Positive and Giant Negative Thermal ExpansioElucidating the effects of adsorbent flexibility on fluid adsorption using simple models and flat-histogram sampling methods.Interplay between defects, disorder and flexibility in metal-organic frameworks.An all-atom force field developed for Zn₄O(RCO₂)₆ metal organic frameworks.Direct visualization of a guest-triggered crystal deformation based on a flexible ultramicroporous framework.On the structural stability of ionic liquid-IRMOF composites: a computational study.In silico screening of metal-organic frameworks in separation applications.Compositional dependence of anomalous thermal expansion in perovskite-like ABX3 formates.Hydration-dependent anomalous thermal expansion behaviour in a coordination polymer.Orientational order-dependent thermal expansion and compressibility of ZrW2O8 and ZrMo2O8.Air separation with graphene mediated by nanowindow-rim concerted motion.On flexible force fields for metal-organic frameworks: Recent developments and future prospectsProposal for a material with negative thermal expansionThermal and Gas Dual-Responsive Behaviors of an Expanded UiO-66-Type Porous Coordination PolymerThermal expansion behaviors of Mn(II)-pyridylbenzoate frameworks based on metal-carboxylate chainsTurning on the flexibility of isoreticular porous coordination frameworks for drastically tunable framework breathing and thermal expansionContinuous negative-to-positive tuning of thermal expansion achieved by controlled gas sorption in porous coordination frameworks
P2860
Q33867553-F7BBFD8B-0324-425D-B347-6BA7510864A2Q34409432-3E9301C6-C046-4F23-9AEE-A935BDB712C7Q36274975-51112C4C-7FC2-4EE4-879B-40D33229B08EQ38223799-7BA98FB5-F0DC-485E-B79E-643FA864F3C4Q38658510-39F6FD64-9EF1-4723-AD8C-83EF8130B330Q38689870-F7797BE6-1626-43E7-8F27-CD5FA5675FFEQ38915026-171F8A9E-1DE6-4CD1-878D-40959C7DD64FQ39991191-B1805908-7DB8-465B-B6AA-A35BED97007CQ41335712-77B0786F-EDAA-400D-8A00-95B3E1BC6C4BQ42093049-967A6B23-34CD-40D8-A648-B22F1E721511Q42328722-9EF7B220-1CBD-4704-ADE7-B67D37D6EDE5Q44396206-A45EA2EB-DA0E-46C1-88AF-008C94CC0AE8Q44776362-17453DB0-0C44-4145-AC84-A286F2D213FDQ46449895-FB6A7E93-9208-42B1-90AA-DCEDD1F8F9CFQ46798465-31E78E8E-3D88-4D8D-BF5B-4C131317F699Q47337325-C7243E9B-CC3A-4E33-8D81-FB591A7B8939Q47424822-D950DDEA-3A81-48C2-9127-9326499C193DQ47806846-8578CE95-0B54-493D-B2BC-06DFAC9A61ACQ48041965-4C67AE25-BC6B-4FE5-A4FF-164A21091D08Q48130364-6F9C1236-AB0E-48E9-A39F-14325A3C8504Q50111207-67567210-3366-4125-A3EF-01BC5D43AFC3Q51070628-5D18D8F2-B576-4859-83B7-5C5F3BE7149AQ51071751-101D687D-34C6-4C21-BA7F-6432BE96E1D3Q51109262-A46CDF09-8DAD-43A4-8A99-6DBBCE6D49DEQ51781014-3CE16E2E-A030-4EFD-81B1-03AB7CB36519Q52657145-ACDC128F-AFD0-4CA9-9A93-A8E98C21DF88Q53083891-334097BE-11CC-4E27-B89F-6870D1CCAB4FQ53190373-59503138-0FB0-44F6-BD22-92DD83226980Q53774695-B410742C-0594-4F51-838F-1EB647485064Q54746151-EDFFA769-CC89-4CD2-B957-C00FD9BB887DQ55154113-1B0A36ED-BC78-4734-AD9B-4A60AACDF9B2Q57179118-B6F33154-4E71-480E-A27E-0C6AC3827316Q57370504-75F4EBF3-88A5-43C2-B11D-FB1B4495D2D8Q57732418-8E1C1028-2841-414E-B7A5-8F8743D3B668Q57732511-75C0ADD1-9356-4804-998F-8644FA334067Q57732528-8BE3F84F-37A8-4F2C-A2A9-4C72832DE3EBQ59125230-47F6CAC0-5989-468A-ACF3-A5164A7D3189
P2860
Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
@en
Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
@nl
type
label
Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
@en
Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
@nl
prefLabel
Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
@en
Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
@nl
P356
P1476
Exceptional negative thermal expansion in isoreticular metal-organic frameworks.
@en
P2093
Donald E Ellis
Krista S Walton
P304
P356
10.1002/ANIE.200700218
P407
P577
2007-01-01T00:00:00Z