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梁世军
电子邮件 sjliang (at)nju.edu.cn
联系电话 八三五九二零八零
办公地点 唐仲英楼A310
个人信息

梁世军,博士生导师,国家优青,物理学院副教授,主要从事研究方向为量子材料与智能器件/系统。获得的荣誉包括国际先进材料学会科学家奖(IAAM Scientist Award)、IEEE NPSS学会优秀博士生奖、国际真空纳米电子学领域“青年科学家奖”、2020年度“中国新锐科技人物卓越影响奖”等。研究成果入选“2022年度中国半导体十大研究进展”,获得2021年度“中国半导体十大研究进展”提名奖,日内瓦发明国际展( International Exhibition of Inventions of Geneva)银奖等,担任 Chinese Physics Letters、Chinese Physics B、《物理学报》和《物理》四刊联合青年编委,中国机械工程学会极端制造分会委员,International Journal of Extreme Manufacturing (IJEM)青年编委,《半导体学报》青年编委。


 2017年博士毕业于新加坡科技设计大学,获全校最佳博士论文奖。2017年至今,分别担任南京大学物理学院,副研究员和副教授。



主持项目主持国家重点研发计划“生物与信息融合”项目课题1项、国家优秀青年科学基金1项,自然科学基金面上基金1项,参与承担国家重点研发计划项目、国家自然科学基金重点项目等国家级项目。

  1.   生物启发式新型神经拟态器件,国家重点研发计划“生物与信息融合”项目,2023.11-2026.10

  2. 新型异质结器件,国家优秀青年科学基金,2022.01-2024.12

担任课程

半导体物理与器件----(大三上学期)

低维凝聚态物理进展 (研究生课程)

科学之光-信息技术的物理基础 (类脑智能技术)

研究领域

研究方向:量子材料、智能器件、智能系统、智能物质

围绕低维范德华异质结在智能器件中应用为目标,取得了一系列创新研究成果。相关工作以第一作者或者通讯作者身份发表在Nature Nanotechnology、Nature Electronics、Physical Review Letters、 Science Advances、Advanced Materials、IEDM 等著名期刊和国际微电子领域顶级会议。



招生或招聘:每年招收硕/博士研究生2-3名,另常年招收博士后/助理研究员,以及特聘副研究员位置空缺,欢迎感兴趣的同学和有意愿的青年才俊联系我们。


部分发表工作:

(18)“Selective and Quasi-continuous Switching of Ferroelectric Chern Insulator Device for Neuromorphic Computing"

Moyu Chen#, Yongqin Xie#, Bin Cheng*, Zaizheng Yang, Xin-Zhi Li, Fanqiang Chen, Qiao Li, Jiao Xie, Kenji Watanabe, Takashi Taniguchi, Wen-Yu He, Menghao Wu, Shi-Jun Liang*, Feng Miao*

Nature Nanotechnology (2024) In press


(17)"On-device phase engineering"

X. Liu#, J. Shan#, T. Cao#, L. Zhu#, J. Ma#, G. Wang, Z. Shi, Q. Yang, M. Ma, Z. Liu, S. Yan, L. Wang, Y. Dai, J. Xiong, F. Chen, B. Wang, C. Pan, Z. Wang, B. Cheng, Y. He, X. Luo*, J. Lin*, S.-J Liang*, and F. Miao*

Nature Materials (2024) doi:https://doi.org/10.1038/s41563-024-01888-y


(16) "In-sensor Dynamic Computing for Intelligent Machine Vision"

Y. Yang#, C. Pan#, Y. Li#, X.-J. Yangdong, P. Wang, Z. Li, S. Wang, W. Yu, G. Liu, B. Cheng, Z. Di, S.-J Liang*, and F. Miao*

Nature Electronics 7, 225 (2024)


(15) "Interfacial magnetic spin Hall effect in van der Waals Fe3GeTe2/MoTe2 heterostructure"

Y. Dai#, J. Xiong#, Y. Ge#, B. Cheng*, L. Wang, P. Wang, Z. Liu, S. Yan, C. Zhang, X. Xu, Y. Shi, S. Cheong, C. Xiao*, S. A. Yang, S.-J Liang*, and F. Miao*
Nature Communications 15, 1129 (2024)


(14) "Parallel perception of visual motion using light-tunable memory matrix"

X. Pan#, J. Shi#, P. Wang, S. Wang, C. Pan, W. Yu, B. Cheng, S.-J Liang* and F. Miao*

Science Advances 39, eadi4083(2023)


(13) "Parallel in-memory wireless computing"

Cong Wang#, Gong-Jie Ruan#, Zai-Zheng Yang, Xing-Jian Yangdong, Yixiang Li*, Liang Wu, Yingmeng Ge, Yichen Zhao, Chen Pan, Wei Wei, Li-Bo Wang, Bin Cheng, Zaichen Zhang, Chuan Zhang, Shi-Jun Liang* & Feng Miao* 

Nature Electronics 6, 381 (2023)


(12) "Cascadable in-memory computing based on symmetric writing and readout"

L. Wang#, J. Xiong#, B. Cheng*, Y. Dai, F. Wang, C. Pan, T. Cao, X. Liu, P. Wang, M. Chen, S. Yan, Z. Liu, J. Xiao, X. Xu, Z. Wang, Y. Shi, S. Cheong, H. Zhang, S.-J Liang*, F. Miao*

Science Advances 8, eabq683 (2022).


(11)"Lego-like reconfigurable AI chips",

Shi-Jun Liang, Feng Miao*

Nature Electronics 5, 327 (2022).


(10) "Broadband convolutional processing using band-alignment-tunable heterostructures"
Lejing Pi#, Pengfei Wang#, Shi-Jun Liang#, Peng Luo, Haoyun Wang, Dongyan Li, Zexin Li, Ping Chen, Xing Zhou*, F. Miao*, Tianyou Zhai*,
Nature Electronics 5, 248 (2022).


(9) "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).


(8) "Reconfigurable logic and neuromorphic circuits based on electrically tuneable two-dimensional homojunctions"

C. Pan, C. Wang, S.-J. 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).入选ESI高被引论文,被 Nature Electronics的 News&Views栏目专题报道


(7) "Gate-tunable van der Waals heterostructure for reconfigurable neural network vision sensor”

C. Wang#, S.-J. 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).


(6) "Networking retinomorphic sensor with memristive crossbar for brain-inspired visual perception" S. Wang, C. Wang, P. Wang, C. Wang, Z. Li, C. Pan, Y. Dai, A. Gao, C. Liu, J. Liu, H. Yang, X. Liu, B. Cheng, K. Chen, Z. Wang, K. Watanabe, T. Taniguchi, S.-J. Liang*, F. Miao*, 

National Science Review 8, nwaa172 (2021).被“忆阻器之父”-蔡少棠教授点评为“一个重要突破(breakthrough)”


(5) "Observation of negative terahertz photoconductivity in large area type-Ⅱ dirac semimetal PtTe2"
P. Suo, H. Zhang, S. Yan, W. Zhang, J. Fu, X. Lin, S. Hao, Z. Jin, Y. Zhang, C. Zhang, F. Miao, S.-J. Liang*, G. Ma*,
Physical Review Letters 126, 227402 (2021). 入选“Editor's Suggestion”


(4) "Van der Waals Heterostructures for High‐Performance Device Applications: Challenges and Opportunities"
S.-J. Liang#, B. Cheng#, X. Cui*, F. Miao*,
Advanced Materials 32, 1903800 (2020).


(3) "Nonvolatile van der Waals Heterostructure Phototransistor for Encrypted Optoelectronic Logic Circuit" S. Wang, X. Pan, L. Lyu, C. Wang, P. Wang, C. Pan, Y. Yang, C. Wang, J. Shi, B. Cheng, W. Yu, S.-J. Liang*, and F. Miao*, 

ACS Nano 16, 4528 (2022).


(2) "Negative Photoconductance in van der Waals Heterostructure-Based Floating Gate Phototransistor"
Y. Wang#, E. Liu#, A. Gao, T. Cao, M. Long, C. Pan, L. Zhang, J. Zeng, C. Wang, W. Hu, S.-J. Liang*, F. Miao*,
ACS Nano 12, 9513 (2018).


(1) "Electron Thermionic Emission from Graphene and a Thermionic Energy Converter"

S.-J. Liang and L. K. Ang*

Physical Review Applied 3, 014002 (2015).




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