无机非金属材料系

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材料系 材加系 材物系 无机系 粉末冶金与先进陶瓷研究所

 

姓  名: 张波萍
所在系所: 无机系
职  务: 干部
职  称: 教授
通信地址: 北京市海淀区学院路30号北京科技大学材料学院
邮  编: 100083
办公地点: 主楼429
电  话: 010-62334195
邮  箱: sendaimr@foxmail.com, bpzhang@ustb.edu.cn
传  真: 010-62334195

    (1) 信息功能陶瓷(包括新型介电/压电陶瓷及薄膜,无铅压电陶瓷材料)

    (2) 纳米金属颗粒分散氧化物非线性光学薄膜

    (3) 热电材料与器件,及相关理论计算

    (4) 储能材料(包括弛豫铁电体及反铁电体)

    (5) 光催化薄膜

    (6) 电子显微表征技术以及在材料分析中的应用

     

    目前的研究兴趣集中在:BiFeO3-BaTiO3基无铅压电陶瓷制备、性能优化、畴结构表征等;Cu1.8SMg3Te2GeTeBi2S3基热电材料的制备、性能优化及第一性原理计算等。

    1984年毕业于华中科技大学机械工程二系金属材料专业,获学士学位;

    1990年和1993年获日本东北大学工学部材料系工学硕士学位和工学博士学位,曾任日本东北大学讲师、研究员,以及日本工业技术院东北工业技术研究所研究员。

     

    本科生课程:《材料分析与表征方法》、《无机现代研究方法》《波谱及应用》

    [1]      Shuai Cheng, Bo-Ping Zhang*, Lei Zhao et al: Enhanced insulating and piezoelectric properties of BiFeO3-BaTiO3-Bi0.5Na0.5TiO3 ceramics with high Curie temperature, Journal of the American Ceramic Society, 102(12): 7355-7365 (2019). (影响因子:3.094

    [2]      Bo-Wei Xun, Ning Wang, Bo-Ping Zhang* et al: Enhanced piezoelectric properties of 0.7BiFeO3-0.3BaTiO3 lead-free piezoceramics with high Curie temperature by optimizing Bi self-compensation, Ceramics International, 45(18): 24382-24391 (2019). (影响因子:3.450

    [3]      Bo-Wei Xun, Yu-Cheng Tang, Jian-Yin Chen, Bo-Ping Zhang* et al: Enhanced resistance in Bi(Fe1-xScx)O3-0.3BaTiO3 lead-free piezoelectric ceramics: Facile analysis and reduction of oxygen vacancy, Journal of the European Ceramic Society, 39(14): 4085-4095 (2019). (影响因子:4.029

    [4]      Chun-Mei Tang, Zhi-Cheng Huang, Jun Pei, Bo-Ping Zhang* et al: Bi2Te3 single crystals with high room-temperature thermoelectric performance enhanced by manipulating point defects based on first principles calculation, RSC ADVANCES, 9: 14422–14431 (2019).(影响因子:3.049

    [5]      Shu-Fan Jia, Yi-Ping Su, Bo-Ping Zhang* et al: Few-layer MoS2 nanosheet-coated KNbO3 nanowire heterostructures: piezo-photocatalytic effect enhanced hydrogen production and organic pollutant degradation. NANOSCALE, 11, 7690–7700 2019)(影响因子:7.570

    [6]      Shuai Cheng, Lei Zhao, Bo-Ping Zhang* et al: Lead-free 0.7BiFeO3-0.3BaTiO3 high-temperature piezoelectric ceramics: Nano-BaTiO3 raw powder leading to a distinct reaction path and enhanced electrical properties, Ceramics International, 45(8): 10438-10447 (2019). (影响因子:3.057

    [7]      Yao Yao, Bo-Ping Zhang*, Jun Pei et al: High Thermoelectric Figure of Merit Achieved in Cu2S1-xTex Alloys Synthesized by Mechanical Alloying and Spark Plasma Sintering, ACS APPLIED MATERIALS & INTERFACES, 10 (38): 32201-32211 (2018). (影响因子:8.456

    [8]      Shuai Cheng, Bo-Ping Zhang*, Lei Zhao et al: Enhanced insulating and piezoelectric properties of 0.7BiFeO3-0.3BaTiO3 lead-free ceramics by optimizing calcination temperature: analysis of Bi3+ volatilization and phase structures, Journal of Materials Chemistry C, 6(15): 3982-3989 (2018). (影响因子:6.641

    [9]      Jian-Yin Chen, Bo-Ping Zhang*, Li-Feng Zhu et al: Enhanced insulation resistance and electrical properties of BiFe1-x(Zn0.5Ti0.5)xO3-BaTiO3 lead-free piezoceramics, Ceramics International, 44 (7): 8409-8416 (2018). (影响因子:3.45

    [10]  Dou-Dou Liang, Bo-Ping Zhang*, Liang Zou et al: Enhanced thermoelectric properties of Cu1.8S by Ti-doping induced secondary phase, Journal of Alloys and Compounds, 731: 577-583 (2018). (影响因子:4.175

    [11]  Jun Pei, Li-Juan Zhang, Bo-Ping Zhang* et al:  Enhancing the thermoelectric performance of CexBi2S3 by optimizing the carrier concentration combined with band engineering, Journal of Materials Chemistry C, 5(47): 12492-12499 (2017). (影响因子:6.641

    [12]  Li-Jun Zheng, Bo-Ping Zhang*, He-Zhang Li et al:  CuxS superionic compounds: Electronic structure and thermoelectric performance enhancement, Journal of Alloys and Compounds, 722: 17-24 (2017). (影响因子:4.175

    [13]  Yong-Bin Zhu, Bo-Ping Zhang*, Yong Liu et al: Enhancing thermoelectric performance of Cu2Se by doping Te, Physical Chemistry Chemical Physics, 19: 27664-27669 (2017). (影响因子:3.567

    [14]  Lei Zhao, Bo-Ping Zhang*, Ning Wang et al: High piezoelectricity in CuO-modified Ba(Ti0.90Sn0.10)O3 lead-free ceramics with modulated phase structure, Journal of the European Ceramic Society, 37:1411-1419 (2017). (影响因子:4.029

    [15]  Jun Pei, Bo-Ping Zhang*, Jing-Feng Li et al. Maximizing thermoelectric performance of AgPbmSbTem+2 by optimizing spark plasma sintering temperature, Journal of Alloys and Compounds, 728: 694-700 (2017). (影响因子:4.175

    [16]  Yao Yao, Bo-Ping Zhang*, Jun Pei et al: Thermoelectric Performance Enhancement of Cu2S by Se Doping Leading to Simultaneous Power Factor Increase and Thermal Conductivity Reduction, Journal of Materials Chemistry C, 5: 7845-7852 (2017). (影响因子:6.641

    [17]  Dou-Dou Liang, Zhen-Hua Ge, He-Zhang Li, Bo-Ping Zhang* et al: Enhanced thermoelectric property in superionic conductor Bi-doped Cu1.8S, Journal of Alloys and Compounds,708:169-174(2017). (影响因子:4.175

    [18]  Shun Li, Jian-Ming Zhang, Bo-Ping Zhang* et al: Manipulation of charge transfer in vertically aligned epitaxial ferroelectric KNbO3 nanowire array photoelectrodes, Nano Energy, 35: 92-100 (2017). (影响因子:15.548

    [19]  Ning Wang, Bo-Ping Zhang*, Jian Ma et al: Phase structure and electrical properties of Sn and Zr modified BaTiO3 lead-free ceramics, Ceramics International, 43: 641-649 (2017). (影响因子:3.45

    [20]  Shun Li, Zhen-Hua Ge, Bo-Ping Zhang* et al: Mechanochemically synthesized sub-5 nm sized CuS quantum dots with high visible-light-driven photocatalytic activity, Applied Surface Science, 384: 272-278 (2016). (影响因子:5.155

    [21]  Dai-Bing Zhang, Bo-Ping Zhang*, Dao-Sheng Ye et al: Enhanced Al/Ni co-doping and power factor in textured ZnO thermoelectric ceramics prepared by hydrothermal synthesis and spark plasma sintering, Journal of Alloys and Compounds, 656: 784-792 (2016). (影响因子:4.175

    [22]  Su-Wei Zhang, Bo-Ping Zhang*, Sun Li et al: SPR enhanced photocatalytic properties of Au-dispersed amorphous BaTiO3 nanocomposite thin films, Journal of Alloys and Compounds, 654: 112-119 (2016). (影响因子:4.175

    [23]  Lei Zhao, Bo-Ping Zhang*, Peng-Fei Zhou et al: Piezoelectric and ferroelectric properties of (Ba,Ca)(Ti,Sn)O3 lead-free ceramics sintered with Li2O additives: Analysis of point defects and phase structures, Ceramics International, 42(1): 1086-1093 (2016). (影响因子:3.45

    [24]  Yao Yao, Bo-Ping Zhang*, Jun Pei et al: Improved thermoelectric transport properties of Cu1.8S with NH4Cl-derived mesoscale-pores and point-defects, Ceramics International, 42(15): 17518-17523 (2016). (影响因子:3.45

    [25]  Lei Zhao, Bo-Ping Zhang*, Wen-Yu Wang et al: Effect of B2O3 on phase structure and electrical properties of CuO-modified (Ba,Ca)(Ti,Sn)O3 lead-free piezoceramics sintered at a low-temperature, Ceramics International, 42 (6): 7366-7372 (2016). (影响因子:3.45

    [26]  Dai-Bing Zhang, Bo-Ping Zhang*, Dao-Sheng Ye et al: Thermoelectric properties of textured Zn1-xAlxO ceramics prepared by spark plasma sintering of hydrothermally synthesized rod-shaped powders, Ceramics International, 41(10): 14627-1463 (2015). (影响因子:3.45

    [27]  Peng-Fei Zhou, Bo-Ping Zhang*, Lei Zhao et al: Effect of LiF addition on phase structure and piezoelectric properties of (Ba,Ca)(Ti,Sn)O3 ceramics sintered at low temperature, Ceramics International, 41 (3): 4035-4041 (2015). (影响因子:3.45

    [28]  Lei Zhao, Bo-Ping Zhang*, Peng-Fei Zhou et al: Effect of Li2O addition on sintering and piezoelectric properties of (Ba,Ca)(Ti,Sn)O3 lead-free piezoceramics, Journal of the European Ceramic Society, 35(2): 533-540 (2015). (影响因子:4.029

    [29]  Jun Wang, Yan Li, Juan Ge, Bo-Ping Zhang* et al Improving photocatalytic performance of ZnO via synergistic effects of Ag nanoparticles and graphene quantum dots, Physical Chemistry Chemical Physics, 17(28): 18645-18652 (2015). (影响因子:3.567

     

     

    Chemical Communications, Chemistry of Materials, Journal of Materials Chemistry, CrystEngComm, Applied Physics Letters, Journal of Applied Physics, Journal of the American Ceramic Society, Japanese Journal of Applied Physics, Corrosion Science, Scripta materialia, Materials Transactions, Applied Catalysis以及物理学报等国内外核心期刊上发表科技论文320余篇,其中被 SCI 收录280余篇、 EI 收录280余篇。被引用7140余次,其中他引6500余次(H因子46)。日本发明专利授权 2 项,申请国家发明专利77项,授权60项,公开74项。

     

     

     在日本留学和工作16年,先后参加并完成了十几项日本文部省,通商省以及科学技术振兴学会的研究课题。近年来负责承担包括国家重点研发计划重点专项、国家自然科学基金、国家“863”计划、国家“973”计划、北京市自然科学基金、横向课题等研究项目。主要包括:

    1)      国家重点研发计划重点专项,热电材料的结构调控和性能优化

    2)      国家自然科学基金,(Ba,Ca)(Ti,Sn)O3多元体系无铅压电陶瓷的相结构与性能调控研究

    3)      教育部博士学科点专项科研基金,(Ba,Ca)(Ti,Sn)O3基无铅压电陶瓷的准同型相界组成调控及性能增强

    4)      国家自然科学基金,超离子导体Cu2-xS系列化合物的组成与微结构调控及其热电性能增强机理研究

    5)      北京市自然科学基金,氧化锌的掺杂改性及其微结构调控与热电性能相关性研究

    6)      教育部博士学科点专项科研基金,铌酸盐基无铅电陶瓷的低温致密化及其电学性能增强机制研究

    7)      863”计划,高温氧化物热电纳米织构陶瓷的制备及器件集成

    8)      973”计划,热电材料电热输运的物理机制

     

    ·          2004年入选新世纪优秀人才支持计划

    ·          20102011连续两年获得北京市科学技术三等奖

    ·          北京科技大学任职以来,培养硕士毕业生60人、博士毕业生23人,其中2人次获“校长奖章”,5人获北京科技大学研究生十佳“学术之星”称号,2人获得校长奖学金,8人获得国家奖学金,1人获得三晋奖学金宝钢特奖,10余人获校优秀硕士毕业论文。2人获青年千人,1人“长江学者”特聘教授和国家杰出青年基金。