研究队伍
 
 
 
 
 
 
 
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姓 名:
吴振华
性    别:
职 务:
职    称:
研究员
学 历:
博士
通讯地址:
北京市朝阳区北土城西路3号
电 话:
010-82995791
邮政编码:
100029
传 真:
电子邮件:
wuzhenhua@ime.ac.cn

所属部门:
集成电路先导工艺研发中心
简历:
  教育背景:

  2006/09-2011/07,中国科学院半导体研究所,半导体超晶格国家重点实验室,博士

  2009/02-2009/05,香港城市大学,物理与材料科学系,访问研究助理

  2002/09-2006/06, 南京大学,物理学系,学士

 

  工作简历:

  1.2016/06-至今,中国科学院微电子研究所,集成电路先导工艺研发中心,研究员

  2.2013/03-2016/05,三星电子,半导体研发中心(韩国),高级研发工程师

  3.2011/09-2013/02,三星电子,半导体研发中心(韩国),研发工程师

 

  2006年于南京大学物理学系微电子专业获学士学位,毕设“GaP基稀磁性半导体基本特性研究”(南京大学江苏省光电信息功能材料重点实验室,指导教师:修向前教授,张荣教),2011年于中国科学院半导体研究所获理学博士学位,毕设“石墨烯及拓扑绝缘体中电子的类光输运行为”(中国科学院半导体所超晶格与微结构国家重点实验室,导师:常凯教授)。2011年-2016年于三星电子韩国总部半导体研发中心任半导体器件高级研发工程师。参与研发世界领先的14nm,10nm节点半导体逻辑芯片,主要从事三维鳍形晶体管FinFET中的载流子输运特性研究,TCAD仿真,性能表征,优化,可靠性分析。2016年入选中国科学院率先行动百人计划“青年俊才”项目,进入中国科学院微电子研究所集成电路先导工艺研发中心任研究员至今。已在国际一流学术杂志(JAP, APL, Nanotechnology, RCS Adv., PCCP, PRB, PRL, Nature Materials等)发表同行评议学术论文30余篇,被引用次数近800次,两篇论文入选ESI高引论文。IEEE SISPAD, IEEE ISCAS审稿人。目前研究兴趣包括FinFET,亚10纳米CMOS架构与关键技术,低维介观系统中电荷/自旋量子输运特性,机器学习在半导体器件TCAD仿真中的应用,半导体量子比特等。

研究方向:
  FinFET, Nanowire FET, 10纳米CMOS架构与关键技术,低维介观系统中电荷/自旋量子输运特性
学科类别:
社会任职:
获奖及荣誉:
  2016年度,中国科学院率先行动百人计划“青年俊才”项目。

  2016年度,张家港市第四批领军人才“重点推荐特别优秀项目”。

代表论著:
  

  Journal Papers (* denote corresponding author):

  (1)  Wu, Y., Shen, C., Tan, Q. Shi, J., Liu, X., Wu,Zhenhua, Zhang, J., Tan, P., Zheng, Houzhi, Valley Zeeman splitting of monolayer MoS2 probed by low-field magnetic circular dichroism spectroscopy at room temperature, Appl. Phys. Lett., 2018, accepted.

  (2)  Zhang, R., Wu, Zhenhua, Li, X., Li, L., Chen, Q., Li, Y., Peeters, F., Fano Resonances in Bilayer Phosphorene Nanoring. Nanotechnology, 2018, in press.

  (3)  Zhang, Q., Yin, H., Meng, L., Yao, J., Li, J., Wang, G., Li, Y., Wu, Zhenhua, Xiong, W., Yang, H., Tu, H., L, J. Zhao, C., Wang, W., Ye, T., Novel GAA Si Nanowire p-MOSFETs with Excellent Short Channel Effect Immunity via an Advanced Forming Process. IEEE Electron Device Letters, 2018, in press.

  (4)  Li, X.; Yu, J.; Luo, K.; Wu, Zhenhua*; Yang, W., Tuning electrical and optical anisotropy of a monolayer black phosphorus magnetic superlattice. Nanotechnology, 2018, 29, 174001.

  (5)  Liu, J.; Cao, Y.; Tong, H.; Wang, D.; Wu, Zhenhua*, Broad-spectrum enhanced absorption of graphene-molybdenum disulfide photovoltaic cells in Metal-Mirror Microcavity. Nanotechnology, 2018, 29, 144001.

  (6)  Wu, Zhenhua*; Luo, K.; Yu, J.; Wu, X., Lin, L., Spin-polarized charge transport in HgTe/CdTe quantum well topological insulator under a ferromagnetic metal strip, Solid State Communications, 2018, 270, 151.

  (7)  Liu, J.; Tong, H.; Wu, Zhenhua; Huang, J.; Zhou, Y., Greatly enhanced light emission of MoS2 using photonic crystal heterojunction, Scientific Reports, 2017, 7, 16391.

  (8)  Wu, Zhenhua*; Li, Jian; Li, Jun; Yin, Huaxiang; Liu, Yu, Tuning of few-electron states and optical absorption anisotropy in GaAs quantum rings, Phys. Chem. Chem. Phys., 2017, 19, 30048.

  (9)  Hou, Z.; Wang, G.; Xiang, J.; Yao, J.; Wu Zhenhua; Zhang, Q.; Yin. H., Improved Operation Characteristics for Nonvolatile Charge-Trapping Memory Capacitors with High-?? Dielectrics and SiGe Epitaxial Substrates, Chin. Phys. Lett., 2017, 34, 097304.

  (10) Li, Xiaojing; Wu, Zhenhua*; Liu, Jiangtao, Rashba spin-orbit coupling in graphene monolayer coated by periodic magnetic stripes, Scientific Reports, 2017, 7, 6526.

  (11) Yang, Yang; Wu, Zhenhua; Yang, Wen; Li, Jun; Chen, Songyang.; Li, Cheng, Optimized spin injection efficiency and spin MOSFET operation based on low barrier FM/I/n-Si tunnel contact, Applied Physics Express, 2017, 10(6), 063001.

  (12) Wu, Zhenhua*; Lin, L.; Yang, W.; Zhang, D.; Shen, C.; Lou, W.; Yin, H.; Chang, K., Spin-polarized Charge Trapping Cell based on a Topological Insulator Quantum Dot, RSC Advances, 2017, 7(49), 30963.

  (13) Zhang, Rui; Wu, Zhenhua*; Li, X. J.; Chang, Kai*, Aharonov-Bohm effect in monolayer phosphorene nanorings, Physical Review B, 2017, 95(12), 125418.

  (14) Bhuwalka, Krishna K.; Wu, Zhenhua*; Noh, Hyeon-Kyun; Lee, Wonsok; Cantoro, Mirco; Heo, Yeon-Cheol; Jin, Seonghoon; Choi, Woosung; Kwon, Uihui; Maeda, Shigenobu; Lee, Keun-Ho; Park, Young-Kwan, In0.53Ga0.47As-Based nMOSFET Design for Low Standby Power Applications, IEEE Transactions on Electron Devices, 2015, 62(9), 2816.

  (15) Tan, P. H.; Han, W. P.; Zhao, W. J.; Wu, Zhenhua; Chang, K.; Wang, H.; Wang, Y. F.; Bonini, N.; Marzari, N.; Pugno, N.; Savini, G.; Lombardo, A.; Ferrari, A. C., The shear mode of multilayer graphene, Nature Materials, 2012, 11(4), 294.

  (16) Wu, Zhenhua*; Li, J.; Chan, K. S., Charge pumping in monolayer graphene driven by a series of time-periodic potentials, Physics Letters A, 2012, 376(12-13), 1159.

  (17) Wu, Zhenhua*; Li, J., Spin-related tunneling through a nanostructured electric-magnetic barrier on the surface of a topological insulator, Nanoscale Research Letters, 2012 7(1), 90.

  (18) Wu, Zhenhua; Zhai, F.; Peeters, F. M.; Xu, H. Q.; Chang, Kai, Valley-Dependent Brewster Angles and Goos-Hanchen Effect in Strained Graphene, Physical Review Letters, 2011, 106(17), 176802.

  (19) Wu, Zhenhua; Peeters, F. M.; Chang, Kai, Spin and momentum filtering of electrons on the surface of a topological insulator, Applied Physics Letters, 2011, 98(16), 162101.

  (20) Wu, Zhenhua*, Electronic fiber in graphene, Applied Physics Letters, 2011, 98(8), 082117.

  (21) Wu, Zhenhua; Peeters, F. M.; Chang, Kai, Electron tunneling through double magnetic barriers on the surface of a topological insulator, Physical Review B, 2010, 82(11), 115211.

  (22) Wu, Zhenhua; Zhang, Z. Z.; Chang, Kai; Peeters, F. M., Quantum tunneling through graphene nanorings, Nanotechnology, 2010, 21(18), 185201.

  (23) Zhang, Z. Z.; Wu, Zhenhua; Chang, Kai; Peeters, F. M., Resonant tunneling through S- and U-shaped graphene nanoribbons, Nanotechnology, 2009, 20(41), 415203.

  (24) Wu, Zhenhua; Chang, Kai; Liu, J. T.; Li, X. J.; Chan, K. S., The Hartman effect in graphene, Journal of Applied Physics, 2009, 105(4), 043702.

 

  Conference Paper:

  (1)  Qingzhu Zhang; H. Yin; J. Luo; H. Yang; L. Meng; Y. Li; Zhenhua Wu; Y. B. Zhang; Y. K. Zhang; C. Qin; J. Li; J. Gao; G. Wang; W. Xiong; J. Xiang; Z. Zhou; S. Mao; G. Xu; J. Liu; T. Yang; J. F. Li; Q. Xu; J. Yan; H. Zhu; C. Zhao; T. Ye, FOI FinFET with ultra-low parasitic resistance enabled by fully metallic source and drain formation on isolated bulk-fin, Electron Devices Meeting (IEDM), 2016 IEEE International, 2016/12/3-2016/12/7, pp 17.3.1-17.3.4, San Francisco, United States, 2016.

  (2)  S. Dhar; H. Noh; S. Kim; H. Kim; Zhenhua Wu; W. Lee; K. Bhuwalka; J. Kim; C. Jeong; U. Kwon; S. Maeda; K. Lee, Impact of BTBT, stress and interface charge on optimum Ge in SiGe pMOS for low power applications, Simulation of Semiconductor Processes and Devices (SISPAD), 2016 IEEE International Conference, 2016/9/6-2016/9/8, pp 345-348, Nuremberg, Germany, 2016.

  (3)  Hur, Sung-Gi; Yang, Jung-Gil; Kim, Sang-Su; Lee, Dong-Kyu; An, Taehyun; Nam, Kab-Jin; Kim, Seong-Je; Wu, Zhenhua; Lee, Wonsok; Kwon, Uihui; Lee, Keun-Ho; Park, Youngkwan; Yang, Wouns; Choi, Jungdal; Kang, Ho-Kyu; Jung, Eunsung, A practical Si nanowire technology with nanowire-on-insulator structure for beyond 10nm logic technologies, Electron Devices Meeting (IEDM), 2013 IEEE International, 2013/12/9-2013/12/11, pp 26.5.1-26.5.4, Washington, DC, United States, 2013.

 

  US Patent

  (1)  K. Bhuwalka; Zhenhua Wu; U. Kwon; K. Lee, Semiconductor devices having tapered active regions, US Patent 9,634,092, 2017.

  (2)  M. Cantoro; Zhenhua Wu; K. Bhuwalka; S. Kim; S. Maeda, Semiconductor devices including field effect transistors and methods of forming the same, US Patent 9,679,975, 2017.

 

  CN Patent

  (1) 姜勋财,王任凡,汤宝,罗飙,余兵,朱拓,吴振华, 一种垂直腔面激光器及其制作方法, CN106654856A.

承担科研项目情况:

  1.   国家自然科学基金,面上项目(61774168),高迁移率二维料铟硒及其异质结构的物性、量子输运性质调控和器件应用研究,2018/01-2021/12,63万,在研,主持。

  2.   国家重点研发计划项目(科技部),2016YFA0202300,半导体二维原子晶体材料的制备与器件特性,2016/07-2021/06,4100万,在研,参与(项目骨干)。

  3.   中国科学院微电子所所长基金,“亚10纳米工艺节点CMOS架构材料可行性方案的探索研究”,2016/07-2018/06,70万元,在研,主持。

  4.   中国科学院微电子器件与集成技术重点实验室开放性课题, “新型二维材料纳米微结构中电荷输运的介观调控”,2016/07-2017/06,10万元,已结题,主持。

  5.   中国科学院率先行动百人计划(C类),2016年。

  6.   国家02科技重大专项,XXX产学研合作项目, “XXX工艺技术研发”,2016-2020, XXXX万元,在研,子课题负责人。(部分内容按相关协议要求隐去)

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