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CO_2捕集用具有多级孔结构纳米孔炭的制备(英文) 被引量:6

Preparation of nanoporous carbons with hierarchical pore structure for CO_2 capture
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摘要 以模板法结合化学活化法制备了具有分级结构的纳米孔炭。分别利用氮气吸附法和热重分析法考查KOH活化程度对模板法制备中孔炭的孔结构的影响和不同孔结构的多孔炭对CO2的吸附性能。结果表明,KOH活化不仅增加了大量的微孔,而且使得模板脱除得到的中孔数量降低。中孔吸附CO2对孔表面的利用率最高,而中孔和微孔的合适配比更有利用综合提高CO2的吸附量。制备的纳米孔炭具有较高的CO2吸附量和较好的循环性能和稳定性。 Abstract: Nanoporous carbons with a hierarchical pore structure were prepared by a combination of hard-templating of a thermosetting phenolic resin containing silica nanoparticles, pyrolysis and KOH activation. The influence of the amount of KOH on the pore structure of the temptated and activated carbons was investigated by N2 adsorption and the effect of pore structure on the CO2 adsorption capacity was investigated by thermogravimetric analysis. Results indicated that KOH activation promoted the formation of rnicropores and small mesopores for the templated carbon. The utilization ratio of mesopores for the capture of CO2 is high compared with that of micropores. The porous carbon prepared under a mass ratio of KOH to templated carbon of 2 : 1 has both developed mesopores and micropores, and has a largest adsorption capacity for CO2 among all samples investigated.
作者 唐志红 韩卓 杨光智 赵斌 沈淑玲 杨俊和
机构地区 上海理工大学材料科学与工程学院
出处 《新型炭材料》 SCIE EI CAS CSCD 北大核心 2013年第1期55-60,共6页 New Carbon Materials
基金 国家自然科学基金(51102168,51102169,21101166) 上海市自然科学基金(11ZR1424700) 上海市曙光计划(09SG46) 上海市教委创新计划项目(12YZ093) 上海市科委支撑计划项目(09520500900)~~
关键词 纳米孔炭 CO2吸附 模板法 KOH活化法 Nanoporous carbon CO2 adsorption capacity Template method KOH activation
分类号 TB383.1 [一般工业技术—材料科学与工程]
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新型炭材料
2013年 第1期

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