个人资料:
姓名:张平
职称:教授/博士生导师
学科专业:信息与通信工程
通讯地址:天津大学电气自动化与信息工程学院26楼D区124室
电子信箱:zhangping@tju.edu.cn
简介:
张平,博士,教授,博士生导师,毕业于天津大学,现任职于天津大学电气自动化与信息工程学院。2012年11月至2013年12月,在美国特拉华大学做访问学者。长期从事纳米发电机新能源技术,自驱动智能微系统,人工智能与深度学习,信息材料与器件等领域的应用基础及前沿技术研究。近年来,作为项目负责人和骨干成员先后承担重点研发计划项目,国家自然科学基金项目、863计划项目、国防基础预研项目、国防科工委军品配套项目、天津市科技重大专项等科研项目20余项。在国内外高水平期刊上发表SCI检索论文160余篇,以第一作者或通讯作者发表SCI期刊论文130余篇,其中3篇论文入选ESI高被引论文;申请国家发明专利80余项,获授权发明专利30余项。在该领域取得了多项创新性研究成果,荣获天津市技术发明二等奖。入选2023全球前2%顶尖科学家榜单。
主要经历:
(1) 2016.12-至今,天津大学电气自动化与信息工程学院,副教授/教授
(2) 2008.09-2016.12,天津大学电子信息工程学院,副教授
(3) 2012.11-2013.12, 美国特拉华大学,访问学者
(4) 2006.12-2008.09,天津大学电子信息工程学院,博士后
(5) 2004.03-2006.12,天津大学材料科学与工程学院,博士
主要研究方向:
人工智能与深度学习;图像与视频处理;高速高可靠通信;信息材料及器件;纳米发电机新能源技术;自驱动智能微系统
主要科研项目:
承担科研项目20余项,部分科研项目如下:
(1) 太赫兹高速无线通信系统通信系统,重点研发计划战略性国际科技创新合作重点专项;
(2) 机器人电力巡检图像智能处理研究,企业委托项目;
(3) 红外-可见光影像数据融合深度分析技术研究,企业委托项目;
(4) 极端环境下单兵装备新型电源技术,天津市科技计划重大项目;
(5) 基于力-光耦合控制机制的超柔性TiO2微盘腔生物传感器及其特性研究,国家自然科学基金面上项目;
(6) 电压开关控制的新型多铁性磁电存储单元的研究,天津市自然科学基金项目;
(7) 微组装用高性能微波介质陶瓷与片式元件关键技术研究,863计划项目;
(8) 宽温热稳定型BT/NBT复相介质陶瓷研究,中国博士后科学基金项目;
(9) ××××××,国防科工委国防基础科研项目;
(10) ××××××,国防科工委军品配套项目;
(11) 高压脉冲功率陶瓷电容可靠性测试与验证,企业委托项目。
代表性论著、学术著作:
学术论文:
发表SCI期刊论文160余篇,部分发表论文如下:
[1] Ping Zhang*, Weikang Zhang, Lu Deng, Honghao Zhang, A triboelectric nanogenerator based on temperature-stable high dielectric BaTiO3-based ceramic powder for energy harvesting, NANO ENERGY, 87 (2021) 106176. (SCI: 1区, IF: 17.881)
[2] Honghao Zhang, Ping Zhang*, Weikang Zhang, A High-output Performance Mortise and Tenon Structure Triboelectric Nanogenerator for Human Motion Sensing, NANO ENERGY, 2021, 84: 105933. (SCI: 1区, IF: 17.881)
[3] Yonggui Zhao, Nanchen Dongfang, Carlos A. Triana, Chong Huang, Rolf Erni, Wenchao Wan, Jingguo Li, Dragos Stoian, Long Pan, Ping Zhang, Dynamics and control of active sites in hierarchically nanostructured cobalt phosphide/chalcogenide-based electrocatalysts for water splitting, ENERGY & ENVIRONMENTAL SCIENCE, 2022, 15 (2): 727-739. (SCI: 1区, IF: 38.532)
[4] Zhang Honghao, Zhang Ping*, Enhanced performance triboelectric nanogenerator based on porous structure C/MnO2 nanocomposite for energy harvesting, NANO RESEARCH, 2022, 1-9. (SCI: 1区, IF: 8.897)
[5] Junqing Zhao, Gaowei Zhen, Guoxu Liu, Tianzhao Bu, Wenbo Liu, Xianpeng Fu, Ping Zhang*, Chi Zhang, Zhong Lin Wang, Remarkable merits of triboelectric nanogenerator than electromagnetic generator for harvesting small-amplitude mechanical energy, NANO ENERGY, 2019, 61: 111-118. (SCI: 1区, IF: 17.881)
[6] Ping Zhang*, Xinyue Fan, Manman Hao, Impacts of Mg-site non-stoichiometry on lattice structure and microwave dielectric properties of BaMg2+xV2O8 ceramics for LTCC application, Ceramics International, 2023, 49: 28151-28158. (SCI: 1区, IF: 5.2)
[7] Ping Zhang*, Xinyue Fan, Xu Fan, Correlation between crystal structure and microwave dielectric properties of high-performance Li3Mg4(Nb1-xWx)O8+x/2 ceramics, Ceramics International, 2023, 49: 36706-36714. IDS Number: W4LM6. (SCI: 1区, IF: 5.2)
[8] Ping Zhang*, Xin Tian, Xinyue Fan, A novel BaMg2-xZnxV2O8 ceramic with low dielectric loss and good temperature stability for low temperature co-fired ceramic technology, Ceramics International, 2022, 48(24): 36186-36192,15 December 2022. IDS Number: 6Y2GT. (SCI: 1区, IF: 5.2)
[9] Ping Zhang∗, Manman Hao, Mi Xiao, Crystal structure and microwave dielectric properties of novel BiMg2MO6(M=P,V) ceramics with low sintering temperature, Journal of Materiomics, 2021, 7(6): 1344-1351. (SCI: 1区, IF: 9.4)
[10] Ping Zhang*, Manman Hao, Xin Tian, Sintering behavior and microwave dielectric properties of High-Q Li2(Mg1-xZnx)3Ti(O0.96F0.08)6 ceramics for LTCC application, Journal of Alloys and Compounds, 2021, 884 (2021) 161103. (SCI: 1区, IF: 6.2)
[11] Ping Zhang∗, Manman Hao, Xurui Mao, Kexin Sun, Mi Xiao, A novel low sintering temperature scheelite-structured CaBiVMoO8 microwave dielectric ceramics, Journal of Alloys and Compounds, 2020, 840: 155187. (SCI: 1区, IF: 6.2)
[12] Ping Zhang*, Manman Hao, Xurui Mao, Kexin Sun, Mi Xiao, Effects of W6+ substitution on crystal structure and microwave dielectric properties for Li3Mg2NbO6 ceramics, Ceramics International, 2020, 46(13): 21336-21342. (SCI: 1区, IF: 5.2)
[13] Ping Zhang*, Kexin Sun, Xurui Mao, Mi Xiao, Crystal structures and high microwave dielectric properties in Li+/Ti4+ ions co-doped Li3Mg2NbO6 ceramics, Ceramics International, 2020, 8097- 8103. (SCI: 1区, IF: 5.2)
[14] Ping Zhang∗, Shanxiao Wu, Mi Xiao, The Microwave Dielectric Properties and Crystal Structure of Low Temperature Sintering LiNiPO4 Ceramics, Journal of the European Ceramic Society, 2018, 38(13): 4433-4439. (SCI: 1区, IF: 5.7)
[15] Ping Zhang∗, Kexin Sun, Lu Liu, Mi Xiao, A novel low loss and low temperature sintering Li3(Mg1-xCax)2NbO6 microwave dielectric ceramics by doping LiF additives, Journal of Alloys and Compounds, 2018, 765( 15): 1209-1217. (SCI: 1区, IF: 6.2)
[16] Ping Zhang*, Miaomiao Yang, Mi Xiao, Sintering behavior, crystalline structure and microwave dielectric properties of Li2(Ni1-xMgx)3TiO6 (0 ≤ x ≤ 1) ceramics, Ceramics International, 2018, 44(17): 21607- 21612. (SCI: 1区, IF: 5.2)
[17] Yonggui Zhao, Ping Zhang*, Effects of lanthanides on structural and dielectric properties of NdNbO4-LnNbO4 ceramics, Ceramics International, 2018, 44(2): 1935-1941. (SCI: 1区, IF: 5.2)
[18] Ping Zhang*, Yonggui Zhao, High-Q microwave dielectric materials of Li2ZnTi3O8 ceramics with SnO2 additive, Ceramics International, 2016, 42(2): 2882-2886. (SCI: 1区, IF: 5.2)
[19] PingZhang*, YutingMa, HonghaoZhang, LuDeng, High-Performance Triboelectric Nanogenerators Based on Foaming Agent-Modified Porous PDMS Films with Multiple Pore Sizes, ACS Applied Energy Materials, 2023, 6: 6598-6606. (SCI: 2区, IF: 6.024)
[20] Youfa Zhou, Ping Zhang*, Jiaqi Li, Xurui Mao, Recent progress of triboelectric nanogenerator-based power management and information processing circuit. Materials Today Sustainability, 2023, 23: 100426. (SCI: 2区, IF: 4.524)
[21] Zhang Ping*, Li Zhihao, Zhang Honghao, Enhancing output performance of wearable triboelectric nanogenerators by manipulating the permittivity of BaTiO3-base/PVA composite films, Smart Materials and Structures, 2023, 32: 055017. (SCI: 2区, IF: 4.1)
[22] Jinfan He, Ping Zhang*, Peiguang Jing, Lu Deng, Honghao Zhang, An enhanced triboelectric nanogenerator with micro-grid patterned PDMS for self-powered sensing and music playback. Microelectronic Engineering, 2023, 275:111994. (SCI: 2区, IF: 2.3)
[23] Youfa Zhou, Ping Zhang∗, Jiaqi Li, Xurui Mao, Inhibitory artificial synapses based on photoelectric co-modulation of graphene/WSe2 van der Waals heterojunctions, Nanotechnology, 2023, 34: 505203. (SCI: 2区, IF: 3.5)
[24] Honghao Zhang, Ping Zhang*, Lu Deng, Weikang Zhang, Baocheng Liu, Danhong Ren, Zhengchun Yang, Three-Dimensional Polypyrrole Nanoarrays for Wearable Triboelectric Nanogenerators, ACS Applied Nano Materials, 2022, 5: 11219-11228. (SCI: 2区, IF: 6.024)
[25] 吴振昊,张平,张为,基于OV7725和串口的图像采集验证系统,信息技术, 2015, 10: 1009.
[26] 张平,丁永泽,王致芃,变电站指针式仪表精准读数及可靠度估计模型研究,激光与光电子学进展,2020, 57(10): 101012.
[27] 雷靖,张平,徐江涛,高静,一种基于AER图像传感器的目标完整轮廓提取方法,南开大学学报(自然科学版),2020, 53(02): 62-67.
专利:
申请国家发明专利80余项,获授权发明专利30余项。部分发明专利如下:
(1) 采用优先级自动切换仲裁单元的异步仲裁树电路,ZL2016110624443,2019.08
(2) 基于无线激光通信对准数学模型进行PID调参的方法,2022106113370,2022.05
(3) 一种含局部中间折射率包层的双直波导微环结构,ZL2018100637840,2021.04
(4) 一种可忽略力光耦合效应的柔性光子器件薄膜堆叠结构,ZL201810059661X,2021.09
(5) 一种可实现双传感应用的微谐振腔结构,ZL2018102866026,2021.07
(6) 一种可实现折射率与压力的双传感应用的微盘型光学谐振腔结构,ZL2020100782767, 2022.03
(7) 溶胶包覆法制备钛酸铋钠-钛酸钡复合介质陶瓷的方法,ZL2011100246065,2012.11
(8) 一种宽工作温区热稳定型复合介质陶瓷的制备方法,ZL2011100246972,2012.11
(9) 硅酸锌钴纳米粉体的制备方法,ZL2011100678834,2013.04
(10) 高品质因数铌酸钕系微波介质陶瓷及其制备方法,ZL2012100761893,2013.10
(11) 一种微波介质陶瓷纳米粉体的制备方法,ZL2011100246239,2013.01
(12) 一种锰离子取代制备高品质因数铌酸钕微波介质陶瓷,ZL2013103482478 ,2014.12
(13) 一种改善微波介电特性的钽离子取代铌酸钕陶瓷,ZL2013103482463,2015.01
(14) 高品质因数铌酸钕系微波介质陶瓷及其制备方法,ZL2014104840709,2015.10
(15) Li2MgTi3O8系微波介质陶瓷A位(Mg2+)取代提高Q值的方法,ZL2014106199377,2016.07
(16) 低温烧结NdNbO4-CaTiO3系微波介质陶瓷及其制备方法,ZL2014104840681,2016.05
(17) 一种急冷式脉动焊接方法,ZL201510084954.X,2016.08
(18) 一种锑离子取代铌离子以制备高品质因数铌酸钕陶瓷,ZL2015101923668,2017.03
(19) 一种新型低温烧结低介电常数微波介质陶瓷材料,ZL201510192355X,2017.03
(20) 高Q值Li2MgTi3O8系微波介质陶瓷低温烧结的实现方法,ZL2015101635247,2017.04
(21) 一种氧化铝掺杂以制备低损耗稳定铌酸钕陶瓷,ZL2015105483455,2017.07
(22) 一种采用反应烧结法制备低损耗锌锆铌系微波介质陶瓷,ZL201510726948X,2018.01
主要讲授课程:
《微波器件及系统集成》
《信息功能器件》
主要学术成就、奖励及荣誉:
天津市技术发明二等奖
招生信息:
招收硕士生、博士生、博士后,欢迎同学们与我联系。
招生要求:(1)对相关研究方向有浓厚的兴趣;(2)有团队合作精神;(3)有一定的独立分析问题和解决问题的能力。
招生专业:博士:信息与通信工程(学术型)、电子信息(工程博士) ;
硕士:信息与通信工程(学硕)、电子信息(专硕)。