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作 者:Juan Du Qin-Yan Lin Jian-Qi Zhang Sen-Lin Hou Ai-Bing Chen
机构地区:[1]College of Chemical and Pharmaceutical Engineering,Hebei University of Science and Technology,Shijiazhuang,050018,China [2]The Second Hospital of Hebei Medical University,Shijiazhuang,050000,China
出 处:《Rare Metals》2023年第7期2284-2293,共10页稀有金属(英文版)
基 金:financially supported by the Natural Science Foundation of Hebei(Nos.B02020208088,H2020206514 and B2021208074);S&T Program of Hebei(Nos.20544401D,20314401D,206Z4406G,21314402D,22344402D,22373709D,22284601Z and 21344601D);Tianjin Science and Technology Project(No.19YFSLQY00070)。
摘 要:Herein,we successfully prepare highly dispersed and uniform small nano-size nickel nanoparticles embedded on core-shell carbon spheres by confined-deposition method.The mesoporous silica layer containing surfactant coated on the surface of the polymer sphere provides confined space and effectively controls the growth of nickel nanoparticles during pyrolysis.At the same time,the introduction of nickel species has an impact on structure of the obtained carbon spheres,and it can promote the deposition of carbon to realize the adjustment from hollow to core-shell and then to solid spheres.Owing to the uniform distribution of Ni nanoparticles with small size,mesoporous structure,N-doping groups,high specified surface areas,and core-shell structure,the obtained catalyst shows exciting ability for the production of CO by reduction of CO_(2)with a maximum CO Faradaic efficiency of 98%,indicating its promising prospect in electro-reduction of CO_(2).
关 键 词:Core-shell carbon spheres Small nano-size nickel nanoparticles Confined space Carbon deposition CO_(2)electroreduction
分 类 号:TQ426[化学工程] TB383.1[一般工业技术—材料科学与工程] X701[环境科学与工程—环境工程]
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