南京大学物理学院教授、博导、副院长,南京大学类脑智能科技研究中心主任,江苏“海智”专家联合会信息科学委员会副主任。国家杰出青年科学基金获得者,中国物理学会“黄昆物理奖”获得者,国际先进材料学会IAAM奖章获得者,国家“高层次人才特殊支持计划”科技创新领军人才入选者,科技部中青年科技创新领军人才入选者,科技部国家重大科学研究计划(青年)项目首席科学家,国家“海外高层次青年人才计划”入选者,江苏省“十大青年科技之星”(暨江苏省青年科技奖)入选者,科睿唯安(Clarivate Analytics)全球“高被引科学家”,爱思唯尔“中国高被引学者”,南京市五四青年奖章获得者。
2004年本科毕业于南京大学物理系;2009年获美国加州大学河滨分校物理学博士学位,同年获得最佳博士毕业生奖和国家优秀留学生奖;2009-2012年在美国惠普实验室(硅谷总部)任助理研究员;2012年全职回南京大学工作,并先后获得江苏省双创人才、江苏省杰出青年基金、江苏省A层次“六大高峰”人才计划等资助。
Feng Miao joined Nanjing University as a full Professor of Physics and a Principal Investigator at Nanjing National Laboratory of Microstructures in July 2012. He received his Ph.D. degree in physics from the University of California, Riverside, United States, in 2009. Then he worked with HP Laboratories, Palo Alto, California, as a research associate for three years. He is currently a NSFC (National Science Fund of China) Distinguished Young Scholar, and the Chief Scientist of a National Key Basic Research Program. He has published over 110 technical papers (with over 25000 citations, Web of Science) and is the inventor of over 30 granted/pending China/US patents. His awards include:
Poe Memorial Award (2009)
Jiangsu Young Investigator Award (2014)
China "Young and Middle-aged Leading Scientists, Engineers and Innovators"(2018)
"Jiangsu Youth Stars of Science and Technology"(2018)
Clarivate Analytics "Highly Cited Researchers" (2018) IAAM Medal (International Association of Advanced Materials) (2021)
CPS Huangkun Award (Chinese Physical Society) (2021)
His research is currently focused on electronic properties of two-dimensional materials, and their applications for nanoelectronics, including future computing, emerging memory and advanced optoelectronic devices.
Group website: https://nano.nju.edu.cn/eng_index.html
ORCID: https://orcid.org/0000-0002-0962-5424
Research ID: https://www.webofscience.com/wos/author/record/1149880
Google Scholar: https://scholar.google.com/citations?user=OTR7sbEAAAAJ&hl=en&oi=ao
半导体物理与器件(本科生)
“天开物格-未来诺奖创新实验室”(本科生)
物理英语文选(本科生)
科学之光(本科生)
低维凝聚态物理(研究生)
研究领域:凝聚态物理、固体电子学(纳米电子学)。
研究方向:主要从事二维材料电学性质的基础研究,以及二维材料在信息器件领域的应用研究。具体研究方向包括二维材料的量子电子输运与物性调控,场效应电子器件,光电探测器,存储器与类脑计算器件等。
科研成果:在二维材料电子输运与信息器件领域取得了一系列创新成果,多项工作在国际同行中产生重要影响。作为第一作者或通讯作者在Science、Nature、Nature/Science子刊(>10篇)、Phys. Rev. Lett.等国际权威学术期刊上发表论文,共发表SCI论文110余篇,Web of Science总引用25000余次,Google scholar总引用30000余次;已获授权/申请美国与中国发明专利>30项。目前担任Nature旗下期刊Scientific Reports和npj 2D Materials and Applications编委,IEEE 电子器件学会神经形态计算技术专业委员会委员,中国神经科学学会类脑智能分会委员会委员,还担任Nature、Science、Nature Physics、Nature Nanotechnology、Nature Materials、Nature Electronics、Nature Photonics、Nature Comm.、Science Advances、Phys. Rev. Lett.等学术期刊的审稿人。
每年招收硕/博士研究生4-5名,另有若干博士后/助理研究员,以及特聘研究员/副研究员位置空缺,欢迎感兴趣的同学和有意愿的青年才俊联系我们。
Selected publications:
1) “Tunable quantum criticalities in an isospin extended Hubbard model simulator”
Q. Li, B. Cheng*, M. Chen, B. Xie, Y. Xie, P. Wang, F. Chen, Z. Liu, K. Watanabe, T. Taniguchi, S.-J. Liang, D. Wang, C. Wang, Q.-H. Wang, J. Liu, F. Miao*,
Nature 609, 479 (2022).
2) “Broadband convolutional processing using band-alignment-tunable heterostructures”
L. Pi, P. Wang, S.-J. Liang, P. Luo, H. Wang, D. Li, Z. Li, P. Chen, X. Zhou*, F. Miao*, T. Zhai*,
Nature Electronics 5, 248 (2022).
3) "Scalable massively parallel computing using continuous-time data representation in nanoscale crossbar array"
C. Wang, S.-J Liang, C.-Y. Wang, Z. Yang, Y. Ge, C. Chen, X. Shen, W. Wei, Y. Zhao, Z. Zhang, B. Cheng, C. Zhang, F. Miao*,
Nature Nanotechnology 16, 1079 (2021)
4) "Reconfigurable logic and neuromorphic circuits based on electrically tuneable two-dimensional homojunctions"
C. Pan, C. Wang, S. Liang*, Y. Wang, T. Cao, P. Wang, C. Wang, S. Wang, B. Cheng, A. Gao, E. Liu, K. Watanabe, T. Taniguchi, F. Miao*
Nature Electronics 3, 383 (2020) Link:https://rdcu.be/b5iRF
5) "Observation of ballistic avalanche phenomena in nanoscale vertical Inse/BP heterostructures"
A. Gao, J. Lai, Y. Wang, Z. Zhu, J. Zeng, G. Yu, N. Wang, W. Chen, T. Cao, W. Hu, D. Sun, X. Chen, F. Miao*, Y. Shi*, X.-M. Wang*
Nature Nanotechnology 14, 217 (2019)
6) "Robust memristors based on layered two-dimensional materials"
M. Wang, S. Cai, C. Pan, C. Wang, X. Lian, Y. Zhuo, K. Xu, T. Cao, X. Pan, B. Wang, S. Liang, J. Yang*, P. Wang*, F. Miao*
Nature Electronics 1, 130 (2018)
7) “Gate-tunable van der Waals heterostructure for reconfigurable neural network vision sensor”
C. Wang, S. Liang, S. Wang, P. Wang, Z. Li, Z. Wang, A. Gao, C. Pan, C. Liu, J. Liu, H. Yang, X. Liu, W. Song, C. Wang, B. Cheng, X. Wang, K. Chen, Z. Wang, K. Watanabe, T. Taniguchi, J. Yang*, F. Miao*
Science Advances 6, eaba6173 (2020)
8) “Room-temperature high detectivity mid-infrared photodetectors based on black arsenic phosphorus”
M. Long, A. Gao, P. Wang, H. Xia, Claudia Ott, C. Pan, Y. Fu, E. Liu, X. Chen, W. Lu, Tom Nilges, J. Xu, X. Wang*, W. Hu*, F. Miao*
Science Advances 3, e1700589 (2017)
9) "Gate-tunable negative longitudinal magnetoresistance in the predicted type-II Weyl semimetal WTe2"
Y. Wang, E. Liu, H. Liu, Y. Pan, L. Zhang, J. Zeng, Y. Fu, M. Wang, K. Xu, Z. Huang, Z. Wang, H. Lu, D. Xing, B. Wang*, X. Wan*,F. Miao*
Nature Communications 7, 13142 (2016)
10) "The positive piezoconductive effect in graphene"
K. Xu, K. Wang, W. Zhao, W. Bao, E. Liu, Y. Ren, M. Wang, Y. Fu, J. Zeng, Z. Li, W. Zhou, F. Song, X. Wang, Y. Shi, X. Wan, M. S. Fuhrer, B. Wang*, Z. Qiao*, F. Miao*, D. Xing
Nature Communications 6, 8119 (2015)
11) "Integrated digital inverters based on two-dimensional anisotropic ReS2 field-effect transistors"
E. Liu, Y. Fu, Y. Wang, Y. Feng, H. Liu, X. Wan, W. Zhou, B. Wang*, L. Shao, C. Ho, Y. Huang, Z. Cao, L. Wang, A. Li, J. Zeng, F. Song, X. Wang, Y. Shi, H. Yuan*, H. Y. Hwang, Y. Cui, F. Miao*, D. Xing
Nature Communications 6, 6991 (2015)
12) "Phase-coherent transport in graphene quantum billiards"
F. Miao, S.Wijeratne, Y. Zhang, U. C. Coskun, W. Bao, and C. N. Lau
Science 317, 1530 (2007)
13) "Quantum conductance oscillations in metal/molecule/metal switches at room temperature"
F. Miao, D. Ohlberg, D. R. Stewart, R. S. Williams, C. N. Lau
Physical Review Letters 101, 016802 (2008)