华北电力大学能源动力与机械工程学院-凯发天生赢家一触即发官网

武英

dr. wu ying

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姓名:武英

职称:博士,教授,东方学者,jsps,博士生导师

凯发k8娱乐的联系方式:e-mail:

欢迎广大学子报考硕士、博士研究生以及博士后。课题组正在组建储氢材料技术研究团队,广纳贤才,诚挚欢迎海内外人才申请讲师、副教授以及教授岗。


研究方向:

氢储运用新型高容量储氢材料、器件及燃料电池供氢系统

储氢材料在新型电池上的应用

纳米能源材料高效催化剂

电化学储能电池材料


个人简介

武英,博士,教授,博士生导师。上海市东方学者特聘教授。先后在韩国仁荷大学、日本大阪大学、北海道大学和挪威科技大学以博士后、jsps研究员、coe特聘助教授资格,从事氢能源材料、器件及供氢系统的研究工作。现兼任中国材料研究学会(c-mrs)常务理事、出版委员会副主任,国际材料联合体(iumrs )出版委员会主任,c-mrs能源转化与存储材料分会副秘书长,国际期刊“progress in nature science: materials international”(sci)副主编,《钢铁研究学报》编委,全国氢能标委会委员和高温燃料电池委员会委员。主持了多项国家科技部“863”、国家重点研发计划、国家自然科学基金和装备预研领域共用技术等项目。申请发明专利50余项。发表学术论文130多篇。著作2部。获得国家航天部科技进步一等奖、韩国金属材料学会优秀科技论文奖、日本学术振兴会(jsps)的资助以及中国材料研究学会科学技术一等奖。


承担项目:

国家重点研发计划项目:新型金属硼氢化物储氢体系的设计与性能调控,2021.01–2025.12。

国家自然科学基金(面上项目):纳米限域结构硼氢化镁及其衍生物的可控构筑和可逆吸放氢机理, 2021.01–2024.12。

可再生能源与氢能技术重点专项:加氢站用高安全固态储氢供氢技术-低成本高性能固态储氢材料设计与批量制备技术, 2019.12–2022.11。

可再生能源与氢能技术重点专项:高密度储氢材料及高能效储氢系统的关键基础研究,2019.04–2022.03。

国家自然科学基金(面上项目):碳载硼氢化物催化增强limgn储氢材料的吸放氢反应机理及循环稳定性研究,2018.01–2021.12。

军委装备发展部“十三五”装备预研共用技术:金属储氢材料研究, 2017.01–2020.12 。

军委装备发展部“十三五”装备预研领域重点基金:高密度储氢材料技术,2017.01–2020.12。

新能源汽车2017年专项:70 mpa氢瓶等核心零部件技术研发, 2017.07–2021.06。

新能源汽车2017年专项:基于低成本非贵金属新型储能材料的储能系统,2017.07–2021.06。

国家自然科学基金(面上项目):re-mg-ni系纳米晶a2b7型储氢合金成相机制及其吸放氢过程中相结构的原位转变研究,2014.01–2017.12。

国家科技部863 目标导向项目:纳米能源材料的高效规模化制备及应用技术研究,2013.01–2016.12。

国家科技部863国际科技交流与合作项目:新型高容量纳米金属基储氢材料的开发,2008.01–2011.01。

教育部留学回国人员科研启动基金项目:ecap制备超细晶mg-ni-mm储氢材料的吸放氢特性及其应用研究,2009.03–2010.02。

上海市教委“东方学者”项目:新型纳米热障涂层的关键材料技术及应用研究,2009.01–2011.12。

国家科技部863目标导向项目:高容量a2b7型稀土镁基储氢材料关键技术研究,2009.05–2011.12。


近5年代表性文章:

2022

1.xiaohong chen, kai niu, zhiyong xue, xundao liu, bao zhang, hong zeng, wei lv, wenhan li, yongming zhang,* ying wu*.ultrafine pt nanoparticles supported on n,s-codoped porous carbon nanofibers as efficient multifunctional materials for noticeable oxygen reduction reactionand water splitting performance. nanoscale adv., 2022,4:1639-1648.

2.zhongyu li, youhua yan, haixiang huang, bogu liu, yujie lv, bao zhang, wei lv,jianguang yuan, ying wu*.effects of the different element substitution on hydrogen storageproperties of ti0.8zr0.2mn0.9cr0.6v0.3m0.2(m = fe, ni, co). j. alloys compd..2022, 908:164605-164612.

3.youhua yan, zhongyu li, ying wu*, shaoxiong zhou*. hydrogen absorption-desorption characteristic of (ti0.85zr0.15)1.1cr1-xmoxmn based alloys with c14 laves phase. prog. nat. sci.: mater. int., 2022, 32:143-149.

4.wei lv, jingwen meng, yiming li,weijie yang, yonglan tian, congwen duan, songqin xia,xiaolei ma, ying wu⁎.inexpensive and eco-friendly nanostructured birnessite-type δ-mno2: adesign strategy from oxygen defect engineering and k pre-intercalation. nano energy., 2022, 98:107274-107283.

5.congwenduan*, zhaohua su,yating tian, dongfu, yuling zhang, wei lv, jinghong zhang, lianxi hu, ying wu*.mechanochemical assisted hydrogenation of mg-cnts-ni:kinetics modeling and reaction mechanism.chem. eng. j., 2022,441:136059-136017.

6.congwenduan*, zhaohua su,yating tian, dongfu, yuling zhang, wei lv, jinghong zhang, lianxi hu, ying wu*. n-cnts as an efficient confining framework and catalyst for improving dehydriding/rehydriding properties of mgh2. renewable energy. 2022,187:417-427.

7.b. liu, b. zhang, x. chen, y.lv, h.huang, j.yuan, w. lv, y.wu*. remarkable enhancement and electronic mechanism for hydrogen storage kinetics of mg nano-composite by a multi-valence co-based catalyst [j].materials today nano, 2022, 17: 100168.

8.h.x. huang, b.g. liu, y.j. lv, w. lv, j.g. yuan, y. wu*.double regulation of mg95ni5 hydride in suppressing ammonia andpromoting hydrogen evolution for mg(bh4)2·2nh3, j. alloys compd..2022, 901:163468-163474.

9.jinting chen, zhongyu li, haixiang huang, yujie lv, bogu liu, yongtao li, ying wu, jianguang yuan, yanjie wang. superior cycle life of tizrfemncrv high entropy alloy for hydrogen

storage. scr. mater. 2022,212:114548-114553.

2021

10. for hydrogenstorage(a review). prog nat sci: materint,2021,31:809-820.

11.bogu liu, bao zhang, haixiang huang, xiaohong chen, yujie lv, zhongyu li, jianguang yuan, ying wu*.catalytic mechanism of in-situ ni/c co-incorporation for hydrogen absorption of mg. journal of magnesium and alloys.if=""10.088," in press.

12.jianguang yuan, jinting chen, haixiang huang, yujie lv, boguliu, zhongyu li,bao zhang, wei lv, ying wu*.enhanced hydrogen storage properties of nabh4-mg(bh4)2composites by ndf3addition. prog nat sci: materint, 2021, 31:521-526.

13.xiaohong chen, zhiyong xue,kai niu,xundao liu,wei lv,bao zhang,zhongyu li,hong zeng,yu ren,ying wu*and yongming zhang*.li–fluorine codoped electrospun carbon nanofibers for enhanced hydrogen storage.rsc adv., 2021, 11, 4053-4061.

14.bogu liu, bao zhang, jianguang yuan, wei lv,ying wu*. improvement of hydrogen dehydrogenation performance of lithium amide pyrolysis by ball milling with magnesium. int. j. hydrog. energ., 2021, 46,18423-18432.

15.jianguang yuan, haixiang huang, zan jiang, yujie lv, bogu liu, bao zhang, youhua yan, ying wu*.ni-doped carbon nanotube-mg(bh4)2 composites for hydrogen storage.acs-applied nano materials.2021,4:1604-1612.

16.wei lv,hong zeng,xiaohong chen, zhiyong xue, ying wu*.an improvement of self-discharge propertiesof ce2ni7-typela0.65ce0.1mg0.25ni3co0.5hydrogen storage alloy produced by the melt-spun processing.j. alloys compd..2021, 876:160183-160189.

17.congwenduan, mengmeng wu,yizheng cao, dongfu,yuling zhang,zhaohua su,zhize sun,ying wu*. novel core-shell structured mgh2/alh3@cntsnanocomposites with extreme high dehydriding-rehydriding properties derived from nanoconfinement. j. mater. chem. a.j. mater.chem. a.2021, 9:10921.

18.阎有花,李众宇,武英*,周少雄*.高压复合储氢装置用 ti-zr-cr-mo-mn 储氢合金.稀有金属, 2021, in press.

2020

19.x.l. feng, j.g. yuan, y.j. lv, b.g.liu, h.x. huang, b. zhang, y.h. yan,s.m. han, y. wu*.improvement of desorption performance of mg(bh4)2 by two-dimensional ti3c2 mxene addition. int. j. hydrog. energ.,2020, 45,16654-16662.

20.h.x. huang, j.g. yuan, b. zhang, j.g.zhang, y.f. zhu, l.q. li, y. wu*, s.x. zhou.a noteworthy synergistic catalysis on hydrogen sorption kinetics of mgh2with bimetallic oxide sc2o3/tio2. j. alloys compd.,2020, 839,155387-155395.

21.h.x. huang, j.g.yuan, b. zhang, j.g.zhang, y.f.zhu, l.q. li, y.wu*, s.x. zhou. improvement in the hydrogenation-dehydrogenation performance of a mg-al alloy by graphene supported ni.int. j. hydrog. energ., 2020, 45,798-808.

2019

22.b. zhang,j.g. yuan,y. wu*.catalytic effects of mg(bh4)2on the hydrogen storage properties of li-mg-n-h system. int. j. hydrog. energ.,2019, ,19294-19301.

23.b.g. liu,b. zhang, y. wu*,w.lv,s.x. zhou.theoretical prediction and experimental study on catalytic mechanism of incorporated ni for hydrogen absorption of mg. int. j. hydrog. energ.,2019, 44, 27885-27895.

24.w. lv,y. wu*.effect of melt spinning on the structural and low temperature electrochemical characteristics of la-mg-ni based la0.65ce0.1mg0.25ni3co0.5 hydrogen storage alloy. j. alloys compd.,2019, 789,547-557.

2018

25.zan jiang, jianguang yuan, huanqing han, ying wu*. effect of carbon nanotubes on the microstructural evolution and hydrogen storage properties of mg(bh4)2. j. alloys compd., 2018, 743: 11-16.

26.wei lv, jianguang yuan, bao zhang, ying wu*. influence of the substitution ce for la on structural and electrochemical characteristics of la0.75-xcexmg0.25ni3co0.5 (x=""0," 0.05, 0.1, 0.15, 0.2 at.%) hydrogen storage alloys. j.alloys compd., 2018, 730: 360-36.

2017

27.wen qi, xuan li, hui li, weikang wu, pei li, ying wu*, chunjiang kuang, shaoxiong zhou and xiaolin li.sandwich-structured nanocomposites of n-doped graphene and nearly-monodispersed fe3o4nanoparticles as high performance li-ion battery anodes.nano research, 2017, 10(9):2923-2933.

28.wen qi, xuan li, hui li, weikang wu, pei li, ying wu*, chunjiang kuang, shaoxiong zhou and xiaolin li.facile synthesis of layer structured gep3/c with stablechemical bonding for enhanced lithium-ion storage.scientific reports, 2017,feb, 1-7.

29.jiangguang yuan, ying wu*. the effect of mm content on microstructure and hydrogen storage properties of the as-cast mg-10ni-xmm (x ¼ 1, 2, 3 at.%) alloys.int. j. hydrog.energ., 2017, 42(9),6118-6126.

30.jiangguang yuan, yunfeng zhu, liquan li, ying wu*. preparation and hydrogen storage property of mg-based hydrogen storage composite embedded by polymethyl methacrylate.int. j. hydrog. energ., 2017, 42(35), 22366-22372.

31.huanhuan du, chen zhou, xiubo xie, hui li, wen qi, ying wu, tong liu. pseudocapacitance of nanoporous ni@nio nanoparticles on ni foam substrate: influence ofthe annealing temperature. int. j. hydrog. energ.,2017(42):15236–15245.

32.bao zhang, yujie lv, jianguang yuan, ying wu*. effects of microstructure on the hydrogen storage properties of the melt-spun mg-5ni-3la (at.%) alloys.j. alloys compd.,2017(702):126-131.

33.li w, zhang b, yuan jg, yan yh, wu y*. effect of mo contenton the microstructures and electrochemical performances of la0.75mg0.25ni3.2-xco0.2al0.1mox (x = 0, 0.10, 0.15, 0.20) hydrogen storage alloys. j. alloys compd., 2017(692): 817-824.

34.bao zhang, ying wu*. recent advances in improving performances of the lightweight complex hydrides li-mg-n-h system.prog nat sci: materint, 2017, 27:21-33.

35.wen qi, xuan li, ying wu, hong zeng, chunjiang kuang, shaoxiong zhou, shengming huang, zhengchun yang. flexible electrodes of mno2/cnts composite for enhanced performanceon supercapacitors.surf coat tech., 2017, 320:624-629.


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