本文主要研究内容
作者(2019)在《Template-free synthesis of three-dimensional NiFe-LDH hollow microsphere with enhanced OER performance in alkaline media》一文中研究指出:Flower-like hierarchical three-dimensional Ni Fe layered double hydroxides hollow microspheres(3D NiFe-LDH HMS),as one kind of novel non-noble metal electrocatalysts,have been fabricated in a templatefree route for water oxidation.Both of the concentration of ammonium fluoride and the reaction time are adjusted to obtain a series of Ni Fe-LDH microspheres,with different internal structures from massive to hollow generated during the hydrothermal treatment,which improve the electrocatalytic activity of the Ni Fe-LDH catalysts towards the evolution reaction of oxygen.The optimized Ni Fe-LDH-0.4M HMS show the excellent OER performance in alkaline electrolyte withη=290 mV@10 mA cm-2,and a Tafel slope of 51 mV dec-1,which outperforms the benchmark RuO2 catalyst.The possible reason is attributed to the more exposure of active sites,and fast ion transport resulting from the hierarchical hollow structure.
Abstract
Flower-like hierarchical three-dimensional Ni Fe layered double hydroxides hollow microspheres(3D NiFe-LDH HMS),as one kind of novel non-noble metal electrocatalysts,have been fabricated in a templatefree route for water oxidation.Both of the concentration of ammonium fluoride and the reaction time are adjusted to obtain a series of Ni Fe-LDH microspheres,with different internal structures from massive to hollow generated during the hydrothermal treatment,which improve the electrocatalytic activity of the Ni Fe-LDH catalysts towards the evolution reaction of oxygen.The optimized Ni Fe-LDH-0.4M HMS show the excellent OER performance in alkaline electrolyte withη=290 mV@10 mA cm-2,and a Tafel slope of 51 mV dec-1,which outperforms the benchmark RuO2 catalyst.The possible reason is attributed to the more exposure of active sites,and fast ion transport resulting from the hierarchical hollow structure.
论文参考文献
[1].Controlled synthesis of multi-shelled transition metal oxide hollow structures through one-pot solution route[J]. Xi Wang,Yi-Jun Yang,Ying Ma,Jian-Nian Yao. Chinese Chemical Letters.2013(01)[2].A review of recent progress in preparation of hollow polymer microspheres[J]. Wei Bin1,Wang Shujun1,Song Hongguang2,Liu Hongyan3,Li Jie1 and Liu Ning1 1 State Key Laboratory of Heavy Oil Processing,China University of Petroleum,Beijing 102249,China 2 Henan Shenma Nylon Chemical Co.,Ltd,Pingdingshan,Henan 467013,China 3 School of Chemical Science and Engineering,China University of Petroleum,Beijing 102249,China. Petroleum Science.2009(03)[3].Optical and gas sensing properties of mesoporous hollow ZnO microspheres fabricated via a solvothermal method[J]. Yan Li,Dong-Li Li,Jin-Cheng Liu. Chinese Chemical Letters.2015(03)[4].Biomimetic synthesis of calcium-strontium apatite hollow nanospheres[J]. GAN Yong,HAN DongMei,GU FuBo,WANG ZhiHua & GUO GuangSheng State Key Laboratory of Chemical Resource Engineering,Beijing University of Chemical Technology,Beijing 100029,China. Science China(Chemistry).2010(08)[5].Fabrication and characterization of novel foaming polyurethane hollow fiber membrane[J]. Yanjie Wu,Changfa Xiao,Hailiang Liu,Qinglin Huang. Chinese Journal of Chemical Engineering.2019(04)[6].Construction of highly-stable graphene hollow nanospheres and their application in supporting Pt as effective catalysts for oxygen reduction reaction[J]. Huaifang Zhang,Jubing Zhang,Kunhao Liu,Yunqi Zhu,Xiaoyu Qiu,Dongmei Sun,Yawen Tang. Green Energy & Environment.2019(03)[7].One-step synthesis of hollow UO2 nanospheres via radiolytic reduction of ammonium uranyl tricarbonate[J]. Yong-Ming Wang,Qing-De Chen,Xing-Hai Shen. Chinese Chemical Letters.2017(02)[8].Controllable Preparation and Superior Rate Performance of Spinel LiMn2O4 Hollow Microspheres as Cathode Material for Lithium-ion Batteries[J]. 王诗瑶,肖亮,GUO Yonglin,DENG Bohua,QU Deyu,XIE Zhizhong. Journal of Wuhan University of Technology(Materials Science).2016(03)[9].Intensification of zirconium and hafnium separation through the hollow fiber renewal liquid membrane technique using synergistic mixture of TBP and Cyanex-272 as extractant[J]. A.Yadollahi,M.Torab-Mostaedi,K.Saberyan,A.Charkhi,F.Zahakifar. Chinese Journal of Chemical Engineering.2019(08)[10].A three-dimensional hollow graphene fiber microelectrode with shrink-effect-enabled enzyme immobilization for sensor applications[J]. Liwei Chen,Xiaoteng Ding,Jinfeng Zeng,Le Jiao,Chongbei Wu,Yuze Wang,Qing Han,Liangti Qu. Science Bulletin.2019(11)
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:Template-free synthesis of three-dimensional NiFe-LDH hollow microsphere with enhanced OER performance in alkaline media论文
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