Manganese and magnesium homochiral materials: decoration of honeycomb channels with homochiral chains. - Wikidata - wikimedia - TriplyDB

Manganese and magnesium homochiral materials: decoration of honeycomb channels with homochiral chains.

Manganese and magnesium homochiral materials: decoration of honeycomb channels with homochiral chains.

http://www.wikidata.org/entity/Q46185700

about

Diaquadi-μ-formato-bis-{μ-2,2'-[propane-1,3-diylbis(nitrilo-methanylyl-idene)]diphenolato}cadmium(II)dinickel(II) dihydrate.Applications of homochiral metal-organic frameworks in enantioselective adsorption and chromatography separation.Chiral chemistry of metal-camphorate frameworks.A tale of three carboxylates: cooperative asymmetric crystallization of a three-dimensional microporous framework from achiral precursors.Spontaneous resolution of racemic camphorates in the formation of three-dimensional metal-organic frameworks.In Situ Synthesis of Tetradentate Dye for Construction of Three-Dimensional Homochiral Phosphor.Ionothermal synthesis of homochiral framework with acetate-pillared cobalt-camphorate architecture.Nucleotide-catalyzed conversion of racemic zeolite-type zincophosphate into enantioenriched crystals.Cooperative self-assembly of chiral L-malate and achiral succinate in the formation of a three-dimensional homochiral framework Multiple functions of ionic liquids in the synthesis of three-dimensional low-connectivity homochiral and achiral frameworks.3D Mn(II) coordination polymer with alternating azide/azide/formate/formate bridged chains: synthesis, structure and magnetic properties.A magnesium-based multifunctional metal-organic framework: synthesis, thermally induced structural variation, selective gas adsorption, photoluminescence and heterogeneous catalytic study.Lanthanide metal-organic frameworks showing luminescence in the visible and near-infrared regions with potential for acetone sensing.A 3-D open-framework material with intrinsic chiral topology used as a stationary phase in gas chromatography.A unique magnesium-based 3D MOF with nanoscale cages and temperature dependent selective gas sorption properties.Chiral 3D open-framework material Ni(D-cam)(H2O)2 used as GC stationary phase.Breaking the mirror: pH-controlled chirality generation from a meso ligand to a racemic ligand.Induction of trimeric [Mg3(OH)(CO2)6] in a porous framework by a desymmetrized tritopic ligand.Gate-opening upon CO2 adsorption on a metal-organic framework that mimics a natural stimuli-response system.Control of bulk homochirality and proton conductivity in isostructural chiral metal-organic frameworks.Intercalation of chiral molecules into layered metal-organic frameworks: a strategy to synthesize homochiral MOFs.Zipping and Unzipping of a Paddlewheel Metal-Organic Framework to Enable Two-Step Synthetic and Structural Transformation Synthesis, structure, and properties of a 3D porous Zn(ii) MOF constructed from a terpyridine-based ligand A series of coordination polymers based on a 5-(3′-amine-1′H-pyrazol-4′-yl)-1H-tetrazole ligand: synthesis, structure and properties Sonochemical Syntheses of a One-Dimensional Mg(II) Metal-Organic Framework: A New Precursor for Preparation of MgO One-Dimensional Nanostructure

P2860

Q36148445-1CFC9695-A88C-4C48-82FA-874103808A31 Q38198549-BCF50D99-0718-47B1-8C2A-51900FAFBE61 Q38791605-3FB4AE8E-DA78-4011-AFD8-35DAACE9313F Q39981755-F86CAB86-A0A6-4C46-8AC2-9379C5B56612 Q40810185-2293CCA6-9EA1-4A3A-9424-057AF35F7A76 Q41833486-68BD826A-80A0-475A-B50A-2120598E1EFA Q41889964-DC8C0517-08FE-4107-A267-38A7F19B3F0D Q42066494-5316DEC7-5265-415C-BA00-AF5B21537385 Q42626520-757F440B-99A7-4CD9-BCFF-5586774D70E1 Q42958993-0FFD538E-4BD5-423B-A326-778EF0CAD232 Q43214143-E1512BE5-390B-4850-A60E-CC91A0F5B3FB Q43457271-907F2584-538A-421F-9FE5-139BE9F44BE3 Q44758758-4A89C004-531B-47C6-ABA3-B550434D862D Q44914856-A20FF579-E895-4C35-BD83-CCFF70695C42 Q45083783-6469178B-BCC2-4D2A-BC59-BB7595E00751 Q45327589-E9AFBC7F-F27A-4D7B-963F-2590FA816518 Q46196363-CCA303EB-0C17-4D18-8AF6-2867A29B3281 Q46703359-043684FE-AC4D-4AEB-88B6-E6A2F5EB9276 Q47623401-048C536B-15CD-42FC-AC8A-CD8FCE67E80B Q48326086-61EF433E-CEBF-487B-871E-88ECDC74DAA4 Q51778764-889C832A-B414-4F08-8242-50DBFEA7D1AB Q56880914-7522E2DF-7AEF-4FF9-8D36-DC345E5CF34F Q57815549-DF684A01-89A9-4DD0-934B-02179F6612C2 Q58144997-3AC11BE3-CD90-4863-88B6-12CBC363A0FA Q59017912-704EEC12-6EFD-4753-83E7-CC73F86A9FC6

P2860

Manganese and magnesium homochiral materials: decoration of honeycomb channels with homochiral chains.

http://www.wikidata.org/entity/Q46185700

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-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

2007年學術文章

@zh-hant

name

Manganese and magnesium homoch ...... annels with homochiral chains.

@en

Manganese and magnesium homoch ...... annels with homochiral chains.

@nl

type

label

Manganese and magnesium homoch ...... annels with homochiral chains.

@en

Manganese and magnesium homoch ...... annels with homochiral chains.

@nl

prefLabel

Manganese and magnesium homoch ...... annels with homochiral chains.

@en

Manganese and magnesium homoch ...... annels with homochiral chains.

@nl

P1433

Q46185700-D5F6C605-BF35-47C1-AFED-D67E82D89F6D

P1476

Q46185700-C8C81DA2-583D-4BF4-AFC6-7F82DD640BEC

P2093

Q46185700-1863D2A8-41EB-4962-BA2D-4D77A2F10C4D

Q46185700-52E8DD4D-26C4-41D0-BE0F-1E842451E1D3

Q46185700-6AC88F42-F133-4C4C-9A26-E09F9371EC05

Q46185700-9F6A101C-9254-4711-BB0B-E742ED6D5E4D

Q46185700-A256803A-24CD-4DD2-B1FD-644193505156

Q46185700-CBBBBB35-6993-445F-ADC1-941394937D8E

P2860

Q46185700-16AF1A46-5784-4A80-9D75-8216B5EBE327

Q46185700-1A37AFF2-75C8-4CBE-B093-CC7BE6D12951

Q46185700-242B8A14-E0A7-44D2-B505-DDEA6F9DB7CB

Q46185700-26B9453C-FBEA-430A-9A89-5BD9EE2072F3

Q46185700-48E79735-F106-44C4-B8F7-5ED37A861C07

Q46185700-80F8F2B9-BA99-43B2-913A-5045C0FF4902

Q46185700-832C6CDC-AC1D-4601-A0D2-9CD9436E1BE4

Q46185700-88C6372F-A554-48FB-83E5-3BD1A163C5A8

Q46185700-930C62B3-6684-4096-B004-F838B546F3A1

Q46185700-A549A54A-B429-4CF8-9A69-2F0AF35603CE

P304

Q46185700-8E7ABBC9-9E11-415D-A7F8-6C26CD2A76CB

P31

Q46185700-DBCE0615-77B7-4C9E-8894-CBCCB63F1E38

P356

Q46185700-08385F5D-5617-4110-BE5D-00319C594367

P407

Q46185700-7540884A-CADF-4879-B061-4F558290B921

P433

Q46185700-DFFBE386-3CB3-4AC7-B0D8-8F2DDACC9EAF

P478

Q46185700-D34710C2-D005-45E7-A140-3E968F26365D

P50

Q46185700-289AACC7-8825-4AC0-A5BC-5DCC6CEB2778

P577

Q46185700-C73D6FA9-8CF2-4C29-BCE0-97C7A2D3C86C

P698

Q46185700-031BA7F7-DB50-479E-BF8C-498902162DE6

P921

Q46185700-bb0cc2fa-5739-4204-a1a0-1cfd56181da4

P932

Q46185700-AF862FCF-0F64-49F1-AC06-853A0D935A6B

P356

P1433

Journal of the American Chemical Society

P1476

Manganese and magnesium homoch ...... annels with homochiral chains.

@en

P2093

Cristina Austria

http://www.w3.org/2001/XMLSchema#string

Henry Valle

http://www.w3.org/2001/XMLSchema#string

Jian Zhang

http://www.w3.org/2001/XMLSchema#string

Maria Cruz

http://www.w3.org/2001/XMLSchema#string

Matthew Wong

http://www.w3.org/2001/XMLSchema#string

Shumei Chen

http://www.w3.org/2001/XMLSchema#string

P2860

A homochiral metal-organic porous material for enantioselective separation and catalysis

Reticular synthesis and the design of new materials.

Microporous manganese formate: a simple metal-organic porous material with high framework stability and highly selective gas sorption properties.

Chiral induction in the ionothermal synthesis of a 3-D coordination polymer.

Functional porous coordination polymers.

The chirality, porosity, and ferromagnetism of a 3D nickel glutarate with intersecting 20-membered ring channels.

Structural diversity and chemical trends in hybrid inorganic-organic framework materials.

Chiralization of diamond nets: stretchable helices and chiral and achiral nets with nearly identical unit cells.

Open-framework nickel succinate, [Ni(7)(C(4)H(4)O(4))(6)(OH)(2)(H(2)O)(2)].2 H(2)O: a new hybrid material with three-dimensional Ni-O-Ni Connectivity.

Nickel(II) Phosphate VSB-5: A Magnetic Nanoporous Hydrogenation Catalyst with 24-Ring Tunnels A.K.C. thanks the Fondation de l'Ecole Normale Supérieure and the Région de l'Ile de France for a Chaire Internationale de Recherche, Blaise Pascal. We als

P304

14168-14169

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1021/JA076532Y

http://www.w3.org/2001/XMLSchema#string

P407

P433

46

http://www.w3.org/2001/XMLSchema#string

P478

129

http://www.w3.org/2001/XMLSchema#string

P50

P577

2007-10-30T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

17967029

http://www.w3.org/2001/XMLSchema#string

P921

Béésh Łikoní

P932

5713882

http://www.w3.org/2001/XMLSchema#string