Toward a single-layer two-dimensional honeycomb supramolecular organic framework in water.
about
Supramolecular chemistry: from aromatic foldamers to solution-phase supramolecular organic frameworksA highly luminescent tetramer from a weakly emitting monomer: acid- and redox-controlled multiple complexation by cucurbit[7]uril.Supramolecular organic frameworks: engineering periodicity in water through host-guest chemistry.Assembly and molecular order of two-dimensional peptoid nanosheets through the oil-water interfaceThree-dimensional periodic supramolecular organic framework ion sponge in water and microcrystals.A Free-Standing and Self-Healable 2D Supramolecular Material Based on Hydrogen Bonding: A Nanowire Array with Sub-2-nm Resolution.Flexible single-layer ionic organic-inorganic frameworks towards precise nano-size separationSupramolecular metal-organic frameworks that display high homogeneous and heterogeneous photocatalytic activity for H2 production.Interface engineering for CVD graphene: current status and progress.Dimerization of conjugated radical cations: an emerging non-covalent interaction for self-assembly.Cucurbituril-based supramolecular engineered nanostructured materials.Free-Standing Monolayer Two-Dimensional Supramolecular Organic Framework with Good Internal Order.Supramolecular hyperbranched polymers.Porous Organic Molecular Frameworks with Extrinsic Porosity: A Platform for Carbon Storage and Separation.Host-guest chemistry in two-dimensional supramolecular networks.Smart Organic Two-Dimensional Materials Based on a Rational Combination of Non-covalent Interactions.Self-Assembly of an α-Helical Peptide into a Crystalline Two-Dimensional Nanoporous Framework.Shape-Controllable and Fluorescent Supramolecular Organic Frameworks Through Aqueous Host-Guest Complexation.Porous Polyelectrolytes: The Interplay of Charge and Pores for New Functionalities.Tunable fluorescence behaviors of a supramolecular system based on a fluorene derivative and cucurbit[8]uril and its application for ATP sensing.Photolysis of polymeric self-assembly controlled by donor-acceptor interaction.Host-Guest Interaction of Cucurbit[8]uril with N-(3-Aminopropyl)cyclohexylamine: Cyclohexyl Encapsulation Triggered Ternary Complex.Supramolecular Polymerization from Controllable Fabrication to Living Polymerization.Structural Characterization of a Covalent Monolayer Sheet Obtained by Two-Dimensional Polymerization at an Air/Water Interface.Two-Dimensional Materials as Prospective Scaffolds for Mixed-Matrix Membrane-Based CO2 Separation.A Cucurbit[7]uril Based Molecular Shuttle Encoded by Visible Room-Temperature Phosphorescence.Process Development for Separation of Conformers from Derivatives of Resorcin[4]arenes and Pyrogallol[4]arenes.Self-assembly of cucurbit[7]uril based triangular [4]molecular necklaces and their fluorescence properties.Postmodification of a supramolecular organic framework: visible-light-induced recyclable heterogeneous photocatalysis for the reduction of azides to amines.Construction of supramolecular polymer by enzyme-triggered covalent condensation of CB[8]-FGG-based supramonomer.Differences between the Interactions of Linear and Tetrahedron-like Ditopic Guests with Cucurbit[8]uril: Steric Hindrance and Molecular Structure Play Dominant Roles.Highly Enhanced Fluorescence of Supramolecular Polymers Based on a Cyanostilbene Derivative and Cucurbit[8]uril in Aqueous Solution.Role of donor-acceptor macrocycles in sequence specific peptide recognition and their optoelectronic properties: a detailed computational insight.Manipulation of Inorganic Atomic-Layer Networks by Solution-Phase Co-assembly.Crystalline nanotubular framework constructed by cucurbit[8]uril for selective CO2 adsorption.Aqueous interfacial gels assembled from small molecule supramolecular polymers.Polycatenated 2D Hydrogen-Bonded Binary Supramolecular Organic Frameworks (SOFs) with Enhanced Gas Adsorption and Selectivity.Pillar[5]arene-Based Supramolecular Organic Frameworks for Highly Selective CO2-Capture at Ambient ConditionsLarge-Area, Free-Standing, Two-Dimensional Supramolecular Polymer Single-Layer Sheets for Highly Efficient Electrocatalytic Hydrogen Evolution
P2860
Q26776192-77D76338-B6DB-4BFA-8643-F728284945A2Q30820039-4CA06E45-82F8-4E8C-A688-7FD57F829B06Q31081020-983D5058-6459-4C8E-8F85-4E686F22AC3CQ34217981-8492A3D9-19E3-4766-970D-203B3467E959Q34720108-7FF36560-5E76-48AC-B23F-EC94CF976C07Q36339489-047862E9-1743-42F3-89FF-D64F19CB2396Q36637316-C2105E66-68C6-40F8-B111-2F80563053F6Q36899510-7353C8A0-F268-456D-9B28-A8C018EE37AAQ38241251-88DD31D9-BB3F-4089-8EDF-24044D48ED8CQ38246638-DAB7C846-6631-4A94-B7C1-E8447BD2F6B2Q38269434-08240E2B-2A2B-4326-AA1A-3FF564EBA695Q38350517-904F598A-645F-4943-A394-AE91683F94DCQ38761227-FF917A09-0773-4EBD-82D9-F53E05B426CCQ38895163-8C50FA1C-2671-4AC6-AF1C-7B0A3296FED8Q38973282-F9D3F15F-5158-491B-B684-A9AE7566FDEDQ42094821-0BC30FAC-0075-478B-BE47-042867137058Q47200961-57289782-32A6-4B13-9B77-911649C287B3Q47295809-74250B1E-006F-4F2B-B68B-977A16564A47Q47308251-37A8609F-EA50-4CE1-B25B-F8EEBF5440A7Q47338558-712FBCB2-5B63-4590-A3DC-A0B48E4500AAQ47437997-4FE221C9-BF23-4F3B-981F-619661350841Q47561805-7FA73A54-830B-48CE-9754-2DDE4C6332A5Q47871173-A4A75901-B44B-4707-A157-8852841C5040Q47881080-330C2128-9A82-401A-919B-1CFDC73BDE2BQ48056260-E3A90669-93CA-42EF-BEFC-765867E03E01Q48107518-C1C2A6A9-D9A3-45AC-B709-B58C67238D2FQ48140445-38E56B84-F03D-42EE-BE84-716F6ED94D35Q48225355-9AE49EDA-5640-4CD9-95F0-E407346A434FQ49331136-9315BF43-453E-4E67-A483-DB5278B794AEQ50900542-11301C4D-B9C5-4F51-9EA7-62713480094DQ51062799-B441E210-7660-416C-9608-9316878A812CQ51098287-7C48BCE3-4A95-4F59-98F6-E49CFF02B05DQ51643126-17D9C408-5988-424F-A889-526545A3C755Q53155251-76162F84-A1F1-4D87-84DA-7EBAAF969BC1Q54212753-42D4AFEE-8104-4451-902D-5604A6113DC9Q55025753-8442225F-0537-4790-939B-2217241F195DQ55108042-F86EBFC1-E458-413A-80B6-AF0F60B110E8Q57346954-D5D15443-1786-45B6-ABE0-FE6F0053B495Q58338267-0480F858-D04F-4FDB-9878-7809A2B4EF67
P2860
Toward a single-layer two-dimensional honeycomb supramolecular organic framework in water.
description
2013 nî lūn-bûn
@nan
2013 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Toward a single-layer two-dime ...... ar organic framework in water.
@ast
Toward a single-layer two-dime ...... ar organic framework in water.
@en
type
label
Toward a single-layer two-dime ...... ar organic framework in water.
@ast
Toward a single-layer two-dime ...... ar organic framework in water.
@en
prefLabel
Toward a single-layer two-dime ...... ar organic framework in water.
@ast
Toward a single-layer two-dime ...... ar organic framework in water.
@en
P2093
P50
P356
P1476
Toward a single-layer two-dime ...... ar organic framework in water.
@en
P2093
David Hanifi
Yuebiao Zhang
Zhan-Ting Li
P304
17913-17918
P356
10.1021/JA4086935
P407
P577
2013-10-11T00:00:00Z