Chemical sensing in two dimensional porous covalent organic nanosheets.
about
A supramolecular Tröger's base derived coordination zinc polymer for fluorescent sensing of phenolic-nitroaromatic explosives in water.Regulating the topology of 2D covalent organic frameworks by the rational introduction of substituentsπ-Electron rich small molecule sensors for the recognition of nitroaromatics.Covalent Organic Frameworks for CO2 Capture.Porous Organic Polymers for Post-Combustion Carbon Capture.Ultrathin two-dimensional porous organic nanosheets with molecular rotors for chemical sensing.Covalent Organic Frameworks: From Materials Design to Biomedical Application.Novel fullerene-based porous materials constructed by a solvent knitting strategy.Facile synthesis of -C[double bond, length as m-dash]N- linked covalent organic frameworks under ambient conditions.A Case Study on the Influence of Substitutes on Interlayer Stacking of 2D Covalent Organic Frameworks.A Hydrogen-Bonded Hexagonal Buckybowl Framework.Bimodal Functionality in a Porous Covalent Triazine Framework by Rational Integration of an Electron-Rich and -Deficient Pore Surface.Liquid/Liquid Interfacial Synthesis of a Click Nanosheet.Construction of 2D covalent organic frameworks by taking advantage of the variable orientation of imine bonds.Bottom-Up Construction of Porous Organic Frameworks with Built-In TEMPO as a Cathode for Lithium-Sulfur Batteries.Two-dimensional dual-pore covalent organic frameworks obtained from the combination of two D2h symmetrical building blocks.Spray drying for making covalent chemistry II: synthesis of covalent-organic framework superstructures and related composites.Microporous organic polymers involving thiadiazolopyridine for high and selective uptake of greenhouse gases at low pressure.A Hexagonal Covalent Porphyrin Framework as an Efficient Support for Gold Nanoparticles toward Catalytic Reduction of 4-Nitrophenol.Synthesis of -C[double bond, length as m-dash]N- linked covalent organic frameworks via the direct condensation of acetals and amines.Ultrahigh volatile iodine uptake by hollow microspheres formed from a heteropore covalent organic framework.Tuneable near white-emissive two-dimensional covalent organic frameworks.Engineering the electronic structure of two-dimensional subnanopore nanosheets using molecular titanium-oxide incorporation for enhanced photocatalytic activity.Designed synthesis of stable light-emitting two-dimensional sp carbon-conjugated covalent organic frameworksAnion-induced self-assembly of positively charged polycyclic aromatic hydrocarbons towards nanostructures with controllable two-dimensional morphologiesSolvatochromic covalent organic frameworksCreation and bioapplications of porous organic polymer materialsRecent Progress in the Fabrication of Low Dimensional Nanostructures via Surface-Assisted Transforming and CouplingA photoluminescent covalent triazine framework: CO2 adsorption, light-driven hydrogen evolution and sensing of nitroaromatics
P2860
Q33749709-F92C4C4A-91F8-49E8-936B-66B864C5FCB2Q33781537-7B04F9FF-9730-488C-ADEC-521BE9309DB1Q38606370-1468E47F-3DB7-4892-B16D-66389C5AF15FQ38902244-1A838D78-EA6E-4CFD-AF88-5834415C3E91Q39457091-F4F146C5-DF60-4D54-A411-88A8AD04313EQ42630139-B18493B7-AE75-4DBA-86F6-B2D79457E92FQ47214325-2853B2EB-5B9D-4698-9BF0-FF8EF21D720CQ47346248-4C593561-2977-4B67-BA2E-82B0CBBEBF4FQ47426873-5805F17C-7500-43C8-B066-C948C7952D98Q48162994-A03F185F-F3E9-4471-8069-B107F6A54F12Q48198642-4A6ADA54-CA04-457F-9DA8-8A9C982DB569Q48235041-A3F1128D-23B4-4AEB-B8C5-D6335756253DQ48263666-6057E343-24CF-4C77-B65B-14DD7663A6E3Q48274899-22A068D6-B6D4-4478-877C-56EE66CFC670Q48359120-D5E63EDF-D891-4F3E-B4D0-B077FEE6E118Q49010567-C3A07617-96D2-4FF5-A699-94E34DCC8DC2Q49633770-C1E5FD47-C3DD-4AB9-87F5-E6B44FC925C8Q50140125-BC9343FC-3DC5-4131-8CC3-EB0F7D109432Q51139607-141CC1C3-DED9-494F-BD8A-BB497822C0AEQ51366846-325FD3D7-3A9B-45BC-8FFA-B68A09F90E15Q53459862-C31C70B3-02CC-410C-8D75-CBE96FCEC1F8Q55107089-D004439C-BCF8-4799-9F0C-C61923E868E7Q55382315-0E9AFE47-5B17-48D8-A64F-AF97AB91C784Q57295494-624EE948-F6C8-4A64-8390-09B0205B502BQ58338174-5A4045A2-59E6-4F4C-A37B-C7F4676CE0E0Q58726440-78D96340-2DDA-4D61-8DF6-804F28A2D2D6Q58875336-E5967246-2F11-4537-8199-83A39E2C48DAQ59146680-19409DA5-DEEC-493A-AB39-564A95A0968DQ59156500-75C6F620-3038-4223-AF9D-BF6102FC4ABB
P2860
Chemical sensing in two dimensional porous covalent organic nanosheets.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh-hant
name
Chemical sensing in two dimensional porous covalent organic nanosheets.
@en
Chemical sensing in two dimensional porous covalent organic nanosheets.
@nl
type
label
Chemical sensing in two dimensional porous covalent organic nanosheets.
@en
Chemical sensing in two dimensional porous covalent organic nanosheets.
@nl
prefLabel
Chemical sensing in two dimensional porous covalent organic nanosheets.
@en
Chemical sensing in two dimensional porous covalent organic nanosheets.
@nl
P2093
P2860
P50
P356
P1433
P1476
Chemical sensing in two dimensional porous covalent organic nanosheets.
@en
P2093
Gagandeep Kaur
Gobinda Das
Sandeep Verma
Sharath Kandambeth
V Venkatesh
P2860
P304
P356
10.1039/C5SC00512D
P577
2015-04-29T00:00:00Z