基 本 信 息 | ||
姓名:王倩倩 性别:女 党派:中共党员 职称:副教授、博导 联系方式:qwang678@seu.edu.cn | 研究方向: 1、非晶合金/高熵合金化学性能(耐腐蚀、降解、催化)研究 2、铁磁性块体非晶合金微观结构与力学、磁学性能关系研究 3、面向极端环境高性能高熵合金结构与性能关系研究 详见:/mmlab/ | |
个 人 简 介 | ||
教育经历 2008.09-2012.09 美国加州大学河滨分校(University of California, Riverside),化学与环境工程系,博士 2004.09-2008.06 华中科技大学,完美体育手机app最新版,学士 工作经历 2020.09-至今 东南大学,完美体育手机app最新版,材料加工工程系,系主任 2020.04-至今 东南大学,完美体育手机app最新版,副教授 2014.02-2020.04 东南大学,完美体育手机app最新版,讲师
荣誉和奖励 入选2015年度江苏省“双创博士”
代表性论文 [1]Qianqian Wang, M.X. Chen, P.H. Lin, Z.Q. Cui, C.L. Chu*, B.L. Shen*, Investigation of FePC amorphous alloys with self-renewing behaviour for highly efficient decolorization of methylene blue, Journal of Materials Chemistry A, 2018, 6: 10686-10699. (IF:10.733,back cover) [2]Qianqian Wang#, M. Nemoto#, D.L. Li, J. C. Weaver, B. Weden, J. Stegemeier, K. N. Bozhilov, L. R. Wood, G. W. Milliron, C. S. Kim, E. DiMasi, D. Kisailus*, Phase transformations and structural developments in the radular teeth of cryptochiton stelleri, Advanced Functional Materials, 2013, 23: 2908-2917. (IF:16.836,front cover) [3]F. Miao#, Qianqian Wang#, L.C. Zhang*, B.L. Shen*, Magnetically separable Z-scheme FeSiB metallic glass/g-C3N4 heterojunction photocatalyst with high degradation efficiency at universal pH conditions, Applied Surface Science, 2021, 540: 148401. [4]F. Miao, Qianqian Wang*, S.Y. Di, L. Yun, J. Zhou, B.L. Shen*, Enhanced dye degradation capability and reusability of Fe-based amorphous ribbons by surface activation, Journal of Materials Science and Technology, 2020, 53:163-173. [5]F. Miao, Qianqian Wang*, Q.S. Zeng, L. Hou, T. Liang, Z.Q. Cui, B.L. Shen*, Excellent reusability of FeBC amorphous ribbons induced by progressive formation of through-pore structure during acid orange 7 degradation, Journal of Materials Science and Technology, 2020, 38: 107-118. #为共同一作,*为通讯作者 论文发表(按时间倒序) [1]G.M. Shao, Qianqian Wang, F. Miao, J.Q. Li, Y.J. Li, B.L. Shen*, Improved catalytic efficiency and stability by surface activation in Fe-based amorphous alloys for hydrogen evolution reaction in acidic electrolyte, Electrochimica Acta, 2021, 390: 138815. [2]S.Y. Di, Qianqian Wang, Y.Y. Yang, T. Liang, J. Zhou, L. Su, K.B. Yin, Q.S. Zeng, L.T. Sun, B.L. Shen*, Efficient rejuvenation of heterogeneous {[(Fe0.5Co0.5)0.75B0.2Si0.05]96Nb4}99.9Cu0.1 bulk metallic glass upon cryogenic cycling treatment, Journal of Materials Science and Technology, 2022, 97: 20-28. [3]Qianqian Wang, X.D. Bai, B. Sun, J. Liu, Z.H. Cai, X.B. Liang, B.L. Shen*, Influence of Si on tribological behavior of laser cladded Fe-based amorphous/crystalline composite coating, Surface and Coatings Technology, 2021, 405: 126570. [4]Qianqian Wang, X. Yang, Z.Q. Cui, L. Xue, L.L. Shao, Q. Luo, B.L. Shen*, Effects of C/B ratio on glass-forming ability and low-temperature magnetic behavior of FeCoCrMoCBTm metallic glass, Journal of Alloys and Compounds, 2021, 864: 158211. [5]J. Zhou, Qianqian Wang, Q.S. Zeng, K.B. Yin, A.D. Wang, J.H. Luan, L.T. Sun, B.L. Shen*, A plastic FeNi-based bulk metallic glass and its deformation behavior, Journal of Materials Science and Technology, 2021, 76: 20-32. [6]S.Y. Di, Qianqian Wang, J. Zhou, Y.Y. Shen, J.Q. Li, M.Y. Zhu, K.B. Yin, Q.S. Zeng, L.T. Sun, B.L. Shen*, Enhancement of plasticity for FeCoBSiNb bulk metallic glass with superhigh strength through cryogenic thermal cycling, Scripta Materialia, 2020, 187: 13-18. [7]J. Zhou, Qianqian Wang, X.D. Hui, Q.S. Zeng, Y.W. Xiong, K.B. Yin, B.A. Sun, LT. Sun, M. Stoica, W.H. Wang, B.L. Shen*, A novel FeNi-based bulk metallic glass with high notch toughness over 70 MPa m1/2 combined with excellent soft magnetic properties, Materials & Design, 2020, 191:108597. [8]Qianqian Wang, J. Zhou, Q.S. Zeng, G.L. Zhang, K.B. Yin, T. Liang, W.M. Yang, M. Stoica, L.T. Sun, B.L. Shen*, Ductile Co-based bulk metallic glass with superhigh strength and excellent soft magnetic properties induced by modulation of structural heterogeneity, Materialia, 2020, 9: 100561. [9]Qianqian Wang, G.L. Zhang, J. Zhou, C.C. Yuan, B.L. Shen*, Effects of Ni substitution for Fe/Co on mechanical and magnetic properties of Co-based bulk metallic glasses, Journal of Alloys and Compounds, 2020, 820: 153105. [10]Qianqian Wang, L. Yun, M.X. Chen, D.D. Xu, Z.Q. Cui, Q.S. Zeng, P.H. Lin, C.L. Chu, B.L. Shen*, Competitive effects of structural heterogeneity and surface chemical states on catalytic efficiency of FeSiBPCu amorphous and nanocrystalline alloys, ACS Applied Nano Materials, 2019, 2: 214-227. [11]Qianqian Wang, M.X. Chen, L.L. Shao, Y.W. Ge, P.H. Lin, C.L. Chu*, B.L. Shen*, Effects of structural relaxation on the dye degradation ability of FePC amorphous alloys, Journal of Non-crystalline Solids, 2019, 525: 119671. [12]W.M. Yang#, Qianqian Wang#, W.Y. Li, L. Xue, H.S. Liu*, J. Zhou, J.Y. Mo, B.L. Shen*, A novel thermal-tuning Fe-based amorphous alloy for automatically recycled methylene blue degradation, Materials and Design, 2019, 161: 136-146. [13]W.M. Yang#, Qianqian Wang#, H.B. Ling, H.S. Liu*, L. Xue, Y.Z. He, Q. Li, B.L. Shen*, Oxygen-driven impurities scavenging before solidification of Fe-based metallic glasses, Journal of Alloys and Compounds, 2019, 773: 401-412. [14]L. Hou, Qianqian Wang, X.D. Fan, F. Miao, W.M. Yang, B.L. Shen*, Effect of Co addition on catalytic activity of FePCCu amorphous alloy for methylene blue degradation, New Journal of Chemistry, 2019, 43: 6126-6135. (front cover) [15]L. Hou#, X.D. Fan#, Qianqian Wang, W.M. Yang, B.L. Shen*, Microstructure and soft-magnetic properties of FeCoPCCu nanocrystalline alloys, Journal of Materials Science & Technology, 2019, 35: 1655-1661. [16]J. Zhou, B.A. Sun, Qianqian Wang, Q.M. Yang, W.M. Yang, B.L. Shen*, Effects of Ni and Si additions on mechanical properties and serrated flow behavior in FeMoPCB bulk metallic glasses, Journal of Alloys and Compounds, 2019, 783: 555-564. [17]L.L. Shao, L. Xue, Q. Luo, Qianqian Wang, B.L. Shen*, The role of Co/Al ratio in glass-forming GdCoAl magnetocaloric metallic glasses, Materialia, 2019, 7: 100419. [18]D.D. Xu#, B.L. Zhou#, QianQian Wang, J. Zhou, W.M. Yang, C.C. Yuan, L. Xue, X.D. Fan, L.Q. Ma, B.L. Shen*, Effects of Cr addition on thermal stability, soft magnetic properties and corrosion resistance of FeSiB amorphous alloys, Corrosion Science, 2018, 138: 20-27. [19]L. Hou, Qianqian Wang, W.M. Yang, B.L. Shen*, Enhanced plasticity of FeCoBSiNb bulk glassy alloys by controlling the structure heterogeneity with Cu addition, Journal of Non-Crystalline Solids, 2018, 505: 181-187. [20]G.L. Zhang, Qianqian Wang, C.C. Yuan, W.M. Yang, J. Zhou, L. Xue, F. Hu, B.A. Sun, B.L. Shen*, Effects of Cu additions on mechanical and soft-magnetic properties of CoFeBSiNb bulk metallic glasses, Journal of Alloys and Compounds, 2017, 737: 815-820. [21]X.D. Fan, F.L. Zhu, Qianqian Wang, M.F. Jiang, B.L. Shen*, Effect of Magnetic Field Annealing on Microstructure and Magnetic Properties of FeCuNbSiB Nanocrystalline Magnetic Core with High Inductance, Applied Microscopy, 2017, 47(1): 29-35. [22]W.M. Yang, C. Wan, H.S. Liu*, Q. Li, Qianqian Wang, H. Li, J. Zhou, L. Xue, B.L. Shen*, A. Inoue, Fluxing induced boron alloying in Fe-based bulk metallic glasses, Materials & Design, 2017, 129: 63-68. [23]W.M. Yang, H.S. Liu*, Qianqian Wang, Z.N. Wei, L. Xue, C.C. Dun, Y.C. Zhao, C.T. Chang, B.L. Shen, Electronic structure of Cu100-xZrx (x=40, 50, 60) metallic glasses, Materials & Design, 2015, 82: 126-129. [24]L.K. Grunenfelder, E.E. Obaldia, Qianqian Wang, D.S. Li, B. Weden, C. Salinas, R. Wuhrer, P. Zavattieri, D. Kisailus*, Stress and Damage Mitigation from Oriented Nanostructures within the Radular Teeth of Cryptochiton stelleri, Advanced Functional Materials, 2014, 24: 6093–6104. (IF:16.836) [25]J. C. Weaver, Qianqian Wang, A. Miserez, A. Tantuccio, R. Stromberg, K. N. Bozhilov, P. Maxwell, R. Nay, S. T. Heier, E. DiMasi, D. Kisailus*, Analysis of an ultra hard magnetic biomineralsin chiton radular teeth, Materials Today, 2010, 13: 42-52. (IF:26.416) [26]M. Nemoto, Qianqian Wang, D.S. Li, S.Q. Pan, T. Matsunaga, D. Kisailus, Proteomic analysis from the mineralized radular teeth of the giant Pacific chiton, Cryptochiton stelleri (Mollusca), Proteomics, 2012, 12: 2890-2894.
专利 1.沈宝龙,邵根苗,王倩倩,苗芳,一种提高铁基非晶合金催化析氢性能的方法,2020/04/30,中国,202010360333.0 2.沈宝龙,苗芳,王倩倩,范星都,周靖,狄思怡,铁基非晶合金条带降解染料废水的方法,2020/01/03,中国,202010004347.9 3.沈宝龙,张涛,范星都,侯龙,李东辉,王倩倩,晶化窗口宽软磁性能可控的纳米晶合金及其制备方法,2019/05/09,中国,201910382329.1 4.沈宝龙,李东辉,范星都,王倩倩,江沐风,江向荣,王湘粤,一种铁钴基非晶软磁合金及其制备方法,2019/04/22,中国,201910317627.2 5.沈宝龙,苗芳,王倩倩,范星都,侯龙,崔志强,一种铁基非晶合金用于降解酸性橙7的应用,2019/04/11,中国,201910287927.0 6.沈宝龙,白旭东,王倩倩,一种铁基非晶纳米晶激光熔覆复合涂层及制备和测试方法,2019/04/05,中国,201910298201.7 7.沈宝龙, 陈明秀, 储成林, 王倩倩, 范星都, 林萍华, 江沐风, 江向荣, 一种铁基非晶合金用于降解燃料废水中亚甲基蓝的应用, 2018/04/28, 中国, 201810403856.1 8.沈宝龙, 张根垒, 侯龙, 袁晨晨, 范星都, 王倩倩, 高非晶形成能力大塑性钴基块体非晶合金及其制备方法, 2017/11/02, 中国, 201711061546.8 主持项目 1. 国家自然科学基金青年科学基金项目,钴基磁敏非晶合金非晶形成能力和塑性变形能力研究,2016/01-2018/12 2.江苏省基础研究计划(自然科学基金)面上项目,铁基非晶合金高效降解染料性能及机理研究, 2019/07-2022/06 3.东南大学基本科研业务费-国防基金重点项目,超高温高熵合金陶瓷复合材料设计与制备,2019/01-2020/12 4. 东南大学教学改革项目,新工科背景下《工程金属材料》课程教学改革探索,2019/09-2021/08 5. 中央高校基本科研业务费-基础科研扶持项目,铁基非晶合金在染料废水处理中的应用探索及机理研究,2018/01-2018/12 6. 东南大学教学改革项目,《非晶金属材料》全英文课程教学改革探索,2016/01-2017/12
参与项目 1. 军委科技委基础加强计划重点基础研究项目“超高温材料成形技术基础”课题一,超高温材料高通量设计与制备,2019/12-2024/12 2.国家自然科学基金重点项目,高性能铁磁性块体非晶合金的探索与结构性能研究,2017/01-2021/12 3. 军委科技委前沿科技创新项目,增材制造先进非晶合金武器装备,2017/07-2018/06 4. 国家自然科学基金青年科学基金项目,铁磁性非晶合金宏观塑性的电子结构起源,2017/01-201/12 5.国家自然科学基金面上项目,近室温大磁熵变Gd基块体非晶合金的调控制备及同步辐射结构研究,2015/01-2018/12 6. 国家自然科学基金青年科学基金项目,新型低损耗FeBCCu纳米晶软磁合金的制备及晶化机制研究,2015/01-2017/12 |