Effect of pore size on carbon dioxide sorption by carbide derived carbon
about
Furfuralcohol Co-Polymerized Urea Formaldehyde Resin-derived N-Doped Microporous Carbon for CO2 CaptureA carbon nanopore model to quantify structure and kinetics of ion electrosorption with in situ small-angle X-ray scattering.Applications of hierarchically structured porous materials from energy storage and conversion, catalysis, photocatalysis, adsorption, separation, and sensing to biomedicine.CO2 adsorption-induced structural changes in coordination polymer ligands elucidated via molecular simulations and experiments.Porous Organic Polymers for Post-Combustion Carbon Capture.Evidence of Microporous Carbon Nanosheets Showing Fast Kinetics in both Gas Phase and Liquid Phase Environments.Direct electrochemical capture and release of carbon dioxide using an industrial organic pigment: quinacridoneBio-butanol sorption performance on novel porous-carbon adsorbents from corncob prepared via hydrothermal carbonization and post-pyrolysis method.Targeted synthesis of electroactive porous organic frameworks containing triphenyl phosphine moieties.Critical role of small micropores in high CO2 uptake.Facile fabrication of novel highly microporous carbons with superior size-selective adsorption and supercapacitance properties.Probing the role of O-containing groups in CO2 adsorption of N-doped porous activated carbon.Aqueous and Template-Free Synthesis of Meso-Macroporous Polymers for Highly Selective Capture and Conversion of Carbon Dioxide.A method for creating microporous carbon materials with excellent CO2-adsorption capacity and selectivity.Unveiling anomalous CO2-to-N2 selectivity of graphene oxide.Solvent-Free Mechanochemical Synthesis of Nitrogen-Doped Nanoporous Carbon for Electrochemical Energy Storage.Thermoregulated Phase-Transition Synthesis of Two-Dimensional Carbon Nanoplates Rich in sp2 Carbon and Unimodal Ultramicropores for Kinetic Gas Separation.An efficient one-step condensation and activation strategy to synthesize porous carbons with optimal micropore sizes for highly selective CO₂ adsorption.N-doped microporous carbons derived from direct carbonization of K+ exchanged meta-aminophenol-formaldehyde resin for superior CO2 sorption.Templated Synthesis of Nitrogen-Enriched Nanoporous Carbon Materials from Porogenic Organic Precursors Prepared by ATRPDirect prediction of the desalination performance of porous carbon electrodes for capacitive deionizationSuperior CO2 adsorption from waste coffee ground derived carbonsOptimal Activation of Porous Carbon for High Performance CO2CaptureGreat Prospects for PAF-1 and its derivativesSynthesis of copolymerized porous organic frameworks with high gas storage capabilities at both high and low pressuresSelective adsorption of carbon dioxide by carbonized porous aromatic framework (PAF)The effect of KOH concentration on chemical activation of porous carbon sorbents for carbon dioxide uptake and carbon dioxide–methane selectivity: the relative formation of micro- ( 2 nm) porositySolid Adsorbents for Low-Temperature CO2 Capture with Low-Energy Penalties Leading to More Effective Integrated Solutions for Power Generation and Industrial ProcessesBiomass Waste Carbon Materials as adsorbents for CO2 Capture under Post-Combustion ConditionsNitrogen doped carbide derived carbon aerogels by chlorine etching of a SiCN aerogelEmulsion soft templating of carbide-derived carbon nanospheres with controllable porosity for capacitive electrochemical energy storageAdsorption of carbon dioxide on TEPA-modified TiO2/titanate composite nanorodsImpact on CO2 Uptake of MWCNT after Acid Treatment StudyAn Atomistic Carbide-Derived Carbon Model Generated Using ReaxFF-Based Quenched Molecular DynamicsStructure and Electrochemical Performance of Carbide-Derived Carbon Nanopowders
P2860
Q28608599-D36AAE5F-C387-4D98-8974-C40E360B501BQ38743842-4FFE73C0-BBFF-4C63-B05F-FA7E5A780CB1Q38851878-CC09AB0B-C768-4E30-A9A8-32E926CAFA7FQ39306880-CF3DA4D7-7F3B-43E0-8090-8EC188063211Q39457091-F5376E99-EDCC-4856-94A1-4776C16EA9CBQ40717712-80820FAE-6191-4B2B-98ED-B5646EC2631CQ41125540-AC784E60-28B3-42E4-9B75-D70FA54EB96BQ41717786-BE294206-17AF-421D-9326-DF1773B483A1Q43563395-367458C4-DE6D-4FCC-9186-676CE9104E27Q45332187-E68CF36B-16FE-437E-9BA4-A046D845A83AQ46235375-8B14440E-3432-4722-A244-602632592C63Q46266197-EBBBA03A-89F2-43B3-93B5-79B490E438FCQ46313011-A5F25077-503E-4022-B439-FC97F9175A98Q46982984-58B99D6E-3C6F-48B8-B1DF-FD63FAEBA4ECQ47920974-78392D46-1EC0-41FE-B378-EE03C7910DABQ48063093-6E238BD3-09C2-4065-9F8B-118DC4C26658Q48324855-3FC88D13-55FA-4F92-BF2D-EE1CE7BA326CQ51749931-2BBA52C5-5DB6-4074-B900-C1A12DEFFF1EQ53311842-FE5F59CD-1624-48CD-A505-04CDF978DF6AQ56904396-C7D5DA3E-4923-4714-BDC5-417867DA6AE8Q57275866-D295CA99-8695-49F6-A09E-46BBB43A039CQ57524320-C09D096F-C098-4AD7-8070-A54FAC900D6FQ57653614-A48DD5FF-77B7-49FE-BD3E-BD318C8D6477Q57659802-2810EE03-7F8E-4BCC-9B2E-E08E1B710C95Q57659815-6E863621-0D93-4D86-A0C6-D33AB7A95260Q57659827-F2BCCF0D-914E-4D13-8545-024A04E47B2EQ57693601-52620EEB-E055-418B-A262-FE58E87EA31BQ57897660-765E707F-CCFA-4A71-B8CD-520CB1FEEB4AQ57901391-25B51B0A-6A46-44D9-B018-7D9B3E159724Q58371769-E4C771AA-BE55-4970-8D1B-09C88DC58C08Q58371824-352B538F-8240-4EED-B11F-4122140DF2ABQ58834579-8AD2EA5B-EACE-4AE1-ADCE-D5D4237A7966Q58885525-A1165ACB-B3B3-43A3-9C54-D23BFDA2D11DQ58892237-DD8E20F2-99A3-481B-B99E-B85D89CE06A4Q58892478-2537247D-E9BD-4973-A99D-DF169773D90A
P2860
Effect of pore size on carbon dioxide sorption by carbide derived carbon
description
article
@en
im Januar 2011 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у 2011
@uk
name
Effect of pore size on carbon dioxide sorption by carbide derived carbon
@en
Effect of pore size on carbon dioxide sorption by carbide derived carbon
@nl
type
label
Effect of pore size on carbon dioxide sorption by carbide derived carbon
@en
Effect of pore size on carbon dioxide sorption by carbide derived carbon
@nl
prefLabel
Effect of pore size on carbon dioxide sorption by carbide derived carbon
@en
Effect of pore size on carbon dioxide sorption by carbide derived carbon
@nl
P2093
P356
P1476
Effect of pore size on carbon dioxide sorption by carbide derived carbon
@en
P2093
John McDonough
Sun-Hwa Yeon
Volker Presser
P356
10.1039/C1EE01176F
P50
P577
2011-01-01T00:00:00Z