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碳纳米管/石墨烯复合气凝胶的制备与光热辅助吸油性能评价
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作者 郭启麟 郭适 +6 位作者 张瀛博 潘宜勇 陈志康 陈爽 刘会娥 申琦 郭蓉蓉 《化工进展》 EI CAS 2024年第11期6317-6326,共10页
以氧化石墨烯(GO)、羧基化多壁碳纳米管(MWCNTs/COOH)为原料制备Pickering乳液,并以其为软模板合成具有“液滴状”孔道结构和大孔隙体积的碳纳米管/石墨烯复合气凝胶(CNTs/STRGA)。通过引入MWCNTs/COOH的方式,提高材料的光热转换性能。... 以氧化石墨烯(GO)、羧基化多壁碳纳米管(MWCNTs/COOH)为原料制备Pickering乳液,并以其为软模板合成具有“液滴状”孔道结构和大孔隙体积的碳纳米管/石墨烯复合气凝胶(CNTs/STRGA)。通过引入MWCNTs/COOH的方式,提高材料的光热转换性能。调整GO与MWCNTs/COOH的质量比、油水比、水热还原时间,得到一系列不同性质的CNTs/STRGAs。通过扫描电子显微镜(SEM)、X射线光电子能谱(XPS)、拉曼光谱仪(Raman)和傅里叶变换红外光谱仪(FTIR)对所制备的材料进行表征。采用紫外-可见-近红外分光光度计、微机控制电子万能试验机评价材料的吸光能力和机械性能。结果表明,MWCNTs/COOH能显著提高材料的吸光度(95.2%)和光热转换性能,材料上表面通过光热转换可升温至130℃,材料的光热-吸油速率会明显提升,可达6.88g/(g·min),其吸附容量可达130.66g/g。 展开更多
关键词 Pickering乳液 石墨烯 气凝胶 碳纳米管 光热-吸附
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Thermo‐driven photocatalytic CO reduction and H_(2) oxidation over ZnO via regulation of reactant gas adsorption electron transfer behavior 被引量:1
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作者 Zhongming Wang Hong Wang +4 位作者 Xiaoxiao Wang Xun Chen Yan Yu Wenxin Dai Xianzhi Fu 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 2021年第9期1538-1552,共15页
Photothermal catalysis is a widely researched field in which the reaction mechanism is usually investigated based on the photochemical behavior of the catalytic material.Considering that the adsorption of reactants is... Photothermal catalysis is a widely researched field in which the reaction mechanism is usually investigated based on the photochemical behavior of the catalytic material.Considering that the adsorption of reactants is essential for catalytic reactions to occur,in this study,the synergistic effect of photothermal catalysis is innovatively elucidated in terms of the electron transfer behavior of reactant adsorption.For the H_(2)+O2 or CO+H_(2)reaction systems over a ZnO catalyst,UV irradiation at 25°C or heat without UV irradiation did not cause H_(2)oxidation or CO reduction;only photothermal conditions(100 or 150°C+UV light)initiated the two reactions.This result is related to the electron transfer behavior associated with the adsorption of CO or H_(2)on ZnO,in which H_(2)or CO that lost an electron could be oxidized by O2 or hydroxyls.However,the electron‐accepting CO could be reduced by the electron‐donating H_(2)into CH4 under photothermal conditions.Based on the in‐situ characterization and theoretical calculation results,it was established that the synergistic effect of the photothermal conditions acted on the(002)crystal surface of ZnO to stimulate the growth of zinc vacancies,which resulted in the formation of defect energy levels,adsorption sites,and an adjusted Fermi level.As a result,the electron transfer behavior between adsorbed CO or H_(2)and the crystal surface varied,which further affected the photocatalytic behavior.The results show that the effect of photothermal synergy may not only produce the expected kinetic energy,but more importantly,produce energy that can change the activation mode of the reactant gas.This study provides a new understanding of the CO catalytic oxidation and reduction processes over semiconductor materials. 展开更多
关键词 Photothermal synergy Electron transfer behavior Adsorption kinetic control In‐situ characterization Fermi level
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