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铝空气电池用Ag@Cu_(2+1)O/MWNTs氧还原催化剂的制备和电催化性能 被引量:1
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作者 尹连琨 张岩松 +1 位作者 于佳鑫 罗志虹 《粉末冶金材料科学与工程》 2022年第3期284-293,共10页
以四羟甲基氯化磷(THPC)为还原剂,多壁碳纳米管(multi-walled carbon nanotubes,MWNTs)为载体,采用一步法制备Ag@Cu_(2+1)O/MWNTs催化剂,用X射线衍射仪、透射电镜、X射线光电子能谱仪等对催化剂结构、形貌及组成进行表征,并进行负载量... 以四羟甲基氯化磷(THPC)为还原剂,多壁碳纳米管(multi-walled carbon nanotubes,MWNTs)为载体,采用一步法制备Ag@Cu_(2+1)O/MWNTs催化剂,用X射线衍射仪、透射电镜、X射线光电子能谱仪等对催化剂结构、形貌及组成进行表征,并进行负载量测试及循环伏安法(cyclic voltammetry,CV)、线性伏安法(linear sweep voltammetry,LSV)等氧还原反应(oxidation-reduction reaction,ORR)测试。结果表明,Ag@Cu_(2+1)O/MWNTs催化剂的Ag和Cu_(2+1)O负载量(质量分数,%)分别为9.32%和5.90%,Ag@Cu_(2+1)O的平均粒径约为7 nm。Ag@Cu_(2+1)O/MWNTs在碱性介质中催化直接四电子氧还原过程,LSV半波电位为0.75 V,1 600 r/min下的极限扩散电流密度接近5.5 mA/cm^(2),Tafel斜率为92 mV/dec,与20%Pt/C相当,优于Ag负载量为17.5%的Ag/MWNTs催化剂。Ag@Cu_(2+1)O/MWNTs具有与20%Pt/C相当的稳定性和更强的耐甲醇毒化能力。作为铝空气电池阴极催化剂时,表现出与20%Pt/C相当的功率密度(148.7 mW/cm^(2))、容量(1 260 mAh/g)和稳定性。 展开更多
关键词 铝空气电池 银-氧化亚铜 氧还原反应 阴极催化剂 低银负载
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Electron and configuration engineering of atomic Cu and multioxidated Cu_(2+1)O centers via gasifiable reductant strategy for efficient oxygen reduction toward Zn-air battery
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作者 Hongbin Li Jia-Jia Zheng +1 位作者 Mingfan Yang Jingui Duan 《Nano Research》 SCIE EI CSCD 2023年第2期2383-2391,共9页
Efforts in a large number of transition metal-carbon systems are devoted to the development of efficient catalysts for oxygen reduction reaction(ORR).However,unsatisfied O_(2)adsorption and slow reduction of OH*at the... Efforts in a large number of transition metal-carbon systems are devoted to the development of efficient catalysts for oxygen reduction reaction(ORR).However,unsatisfied O_(2)adsorption and slow reduction of OH*at the active centers hinder the further development of these catalysts.We here report a gasifiable reductant strategy,of which a new Cu-based metal organic framework(MOF:termed NTU-83)nanosheet was co-pyrolyzed with melamine to produce the N-coordinated atomic Cu and multi-oxidated Cu_(2+1)O active centers on the carbon foam with ultrathin skeleton.The engineered electrons and configuration of the active centers boost the catalyst(Cu/NC-1000)to show superior ORR activity(E_(1/2)=0.85 V),excellent stability,and methanol resistance.Further modeling calculation and controlled experiments reveal that the Cu_(2+1)O species play a crucial role in kinetically accelerated adsorption and activation of O_(2),while the N_(4)coordinated atomic Cu facilitates fast reduction of OH*.Such characteristics endow the Zn-air battery that containing Cu/NC-1000 as air cathode to show a high peak power density(138 mW·cm^(−2)),a high specific capacity of 763 mAh·gZn^(−1),and outstanding long-term cycle stability.The plausible mechanism and excellent performance show that gasifiable reductant strategy opens up a new route for regulation of the electronic of active sites but also provides a candidate for the practical application in energy conversion/storage devices. 展开更多
关键词 metal organic framework nanosheet carbon foam atomic cu cu_(2+1)o nanosheet electron and configuration engineering
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