典型文献
Integrated Photothermal Nanoreactors for Efficient Hydrogenation of CO2
文献摘要:
To alleviate the energy crisis and global warming, photothermal catalysis is an attractive way to effi ciently convert CO2 and renewable H 2 into value-added fuels and chemicals. However, the catalytic performance is usually restricted by the trade-off between the dispersity and light absorption property of metal catalysts. Here we demonstrate a simple SiO 2 -protected metal–organic framework pyrolysis strategy to fabricate a new type of integrated photothermal nanoreactor with a comparatively high metal loading, dispersity, and stability. The core-satellite structured Co@SiO 2 exhibits strong sunlight-absorptive abil-ity and excellent catalytic activity in CO2 hydrogenation, which is ascribed to the functional separation of diff erent sizes of Co nanoparticles. Large-sized plasmonic Co nanoparticles are mainly responsible for the light absorption and conversion to heat (nanoheaters), whereas small-sized Co nanoparticles with high intrinsic activities are responsible for the catalysis (nanoreactors). This study provides a new concept for designing e? cient photothermal catalytic materials.
文献关键词:
中图分类号:
作者姓名:
Jiahui Shen;Rui Tang;Zhiyi Wu;Xiao Wang;Mingyu Chu;Mujin Cai;Chengcheng Zhang;Liang Zhang;Kui Yin;Le He;Chaoran Li
作者机构:
Institute of Functional Nano&Soft Materials(FUNSOM),Soochow University,Suzhou 215123,China;Jiangsu Key Laboratory of Advanced Negative Carbon Technologies,Soochow University,Suzhou 215123,China
文献出处:
引用格式:
[1]Jiahui Shen;Rui Tang;Zhiyi Wu;Xiao Wang;Mingyu Chu;Mujin Cai;Chengcheng Zhang;Liang Zhang;Kui Yin;Le He;Chaoran Li-.Integrated Photothermal Nanoreactors for Efficient Hydrogenation of CO2)[J].天津大学学报(英文版),2022(04):236-244
A类:
Nanoreactors,nanoheaters,nanoreactors
B类:
Integrated,Photothermal,Efficient,Hydrogenation,To,alleviate,energy,crisis,global,warming,photothermal,catalysis,attractive,way,effi,ciently,convert,renewable,into,value,added,fuels,chemicals,However,catalytic,performance,usually,restricted,by,trade,off,between,dispersity,absorption,property,metal,catalysts,Here,demonstrate,simple,SiO,protected,organic,framework,pyrolysis,strategy,fabricate,type,integrated,comparatively,high,loading,stability,core,satellite,structured,Co,exhibits,strong,sunlight,absorptive,excellent,activity,hydrogenation,which,ascribed,functional,separation,diff,erent,sizes,nanoparticles,Large,sized,plasmonic,are,mainly,responsible,conversion,whereas,small,intrinsic,activities,This,study,provides,concept,designing,materials
AB值:
0.631974
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