李梦姣 教授 博士生导师
邮箱:mjli@shu.edu.cn
上海星空体育官网
导师介绍:
从事新型后摩尔微纳半导体光电器件的性能研究,以及亚纳米集成逻辑电路、存储器、智能感知电子芯片的应用开发。在相关领域发表SCI论文40余篇,其中以第一/通讯作者发表Nature Electronics, Nature Communications, Science Advances, Advanced Materials,Advanced Functional Materials等高影响力的学术论文17篇。2023年入选国家高层次人才引进项目,2022年入选上海市领军人才(海外)项目。主持国家级科研项目2项。
欢迎具有微电子、集成电路、光学工程、应用物理等相关专业背景的硕士、博士研究生及博士后联系加入。
研究方向:
集成电路先进节点器件、低维光电器件、高性能存储器、类神经形态感知
教育背景:
2019年博士毕业于华东师范大学电子工程专业
2014年本科毕业于合肥工业大学微电子学与固体电子学专业
工作经历:
2023年11月-至今 上海大学 教授
2022年12月-2023年10月 上海大学 副教授
2021年01月-2022年12月 美国南加州大学Viterbi工程系 访问学者
2019年08月-2022年11月 中兴大学(中国台湾)博士后
科研成果及获奖情况:
在相关领域发表SCI论文40余篇,其中以第一/通讯作者发表Nature Electronics, Science Advances, Nature Communications,Advanced Materials,Advanced Functional Materials等17篇高影响力的学术论文。2018年获国家博士研究生奖学金,2019年获上海市优秀毕业生,2020年获中国台湾综合大学系统年轻学者创新研发成果奖。2023年入选国家高层次人才引进项目,2022年入选上海市领军人才(海外)项目。主持国家级科研项目2项。
近五年代表性论文:
1. M. J. Li, H. F. Liu, R. Y. Zhao, F. S. Yang, M. R. Chen, Y. Zhuo, C. W. Zhou*, H. Wang*, Y. F. Lin* and J. J. Yang*, Imperfection-enabled memristive switching in van der Waals materials. Nature Electronics 2023, 6, 495.
2. M.-P. Lee, C. F. Gao, M.-Y. Tsai, C.-Y. Lin, F.-S. Yang, H-Y. Sung, C. Zhang, W. W Li*, J. Li, J. H. Zhang, K. Watanabe, T. Taniguchi, K. Ueno, K. Tsukagoshi, C.-H. Ho, J. H. Chu, P.-W. Chiu, M. J. Li*, W.-W. Wu*, Y.-F. Lin*, Silicon–van der Waals heterointegration for CMOS compatible logic-in-memory design. Science Advances 2023, 9, eadk1597.
3. M.J. Li, H.-W. Lu, S.-W. Wang, R.-P. Li, J.-Y. Chen, W.-S. Chuang, F.-S. Yang, Y.-F. Lin*, C.-Y. Chen*, and Y.-C. Lai*, Filling the gap between topological insulator nanomaterials and triboelectric nanogenerators. Nature Communications 2022, 13, 938.
4. M.J. Li, C.-Y. Lin, S.-H. Yang, Y.-M. Chang, J.-K. Chang, F.-S. Yang, C.R. Zhong, W.-B. Jian, C.-H. Lien, C.-H. Ho, H.-J. Liu, R. Huang, W.W. Li*, Y.-F. Lin*, and J.H. Chu, High Mobilities in layered InSe transistors with Indium encapsulation induced surface charge doping. Advanced Materials 2018, 30, 1803690.
5. F.-S. Yang, M.J. Li*, I.-Y. Ho, M.-P. Lee, J.-Y. Chen, H. Ling, Y. Li, J.-K. Chang, S.-H. Yang, Y.-M. Chang, K.-C. Lee, Y.-J. Chou, C.-H. Ho, W.W. Li*, C.-H. Lien*, and Y.-F. Lin*, Oxidation-boosted charge trapping in ultra-sensitive van der Waals materials for artificial synaptic features. Nature Communications 2020, 11, 2972.
6. M.J. Li*, F.-S. Yang, H.-C. Hsu, W.-H. Chen, C. N. Kuo, J.-Y. Chen, S.-H. Yang, T.-H. Yang, C.-Y. Lin, Y. Chou, M.-P. Lee, Y.-M. Chang, Y.-C. Yang, K.-C. Lee, Y.-C. Chou, C.-H. Lien, C.-L. Lin, Y.-P. Chiu, C.-S. Lue*, S.-P. Lin*, and Y.-F. Lin*, Defect engineering in ambipolar layered materials for Mode-regulable nociceptor. Advanced Functional Materials 2021, 31, 2007587.
7. M.J. Li, W.-Y. Cheng, Y.-C. Li, H.-M. Wu, Y.-C. Wu, H.-W. Lu, S.-L. Cheng, L. Li, K.-C. Chang, H.-J. Liu, Y.-F. Lin*, L.-Y. Lin*, and Y.-C. Lai*, Deformable, resilient, and mechanically-durable triboelectric nanogenerator based on recycled coffee waste for wearable power and self-powered smart sensors. Nano Energy 2020, 79, 105405.
8. M.J. Li, F.-S. Yang, Y.-C. Hsiao, C.-Y. Lin, H.-M. Wu, S.-H. Yang, H.-R. Li, C.-H. Lien, C.-H. Ho, H.-J. Liu, W.W. Li*, Y.-F. Lin*, and Y.-C. Lai*, Low-Voltage Operational, Low-Power Consuming and High Sensitive Tactile Switch based on 2D Layered InSe Tribotronics. Advanced Functional Materials 2019, 29, 1809119.
9. M.J. Li, C.-Y. Lin, Y.-M. Chang, S.-H. Yang, M.-P. Lee, C.-F. Chen, K.-C. Lee, F.-S. Yang, Y. Chou, Y.-C. Lin, K. Ueno, Y.M. Shi, Y.-C. Chou*, K. Tsukagoshi*, and Y.-F. Lin*, Facile and reversible carrier modulation of layered MoTe2 toward long-term stable electronics. ACS Applied Materials &Interfaces 2020, 12, 42918.
10. M.J. Li, Q.L. Deng, J.Y. Wang, K. Jiang, Z.G. Hu*, and J.H. Chu‚ In-situ carbon encapsulation of vertical MoS2 arrays with SnO2 for durable high rate lithium storage: dominated pseudocapacitive behavior. Nanoscale 2017, 10, 741.
11. K.-C. Lee, M.J. Li*, Y.-H. Chang, S.-H. Yang, C.-Y. Lin, Y.-M. Chang, F.-S. Yang, C.-H. Ho, C.-H. Lien, S.-P. Lin, P.-W. Chiu*, and Y.-F. Lin*, Inverse paired-pulse facilitation in neuroplasticity based on interface-boosted charge trapping layered electronics. Nano Energy 2020, 77, 105258.
12. S.-H. Yang, K.-C. Lee, M.-Y. Tsai, Y.-M. Chang, C.-Y. Lin, F.-S. Yang, K. Watanabe, T. Taniguchi, C.-H. Lien, C.-H. Ho, M.J. Li*, Y.-F. Lin*, and Y.-C. Lai*, Multifunctional Full-visible-spectrum Optoelectronics based on a van der Waals Heterostructure.Nano Energy 2019, 66, 104107.
13. Q.F. Nie, C.F. Gao, F.-S. Yang, K.-C. Lee, C.-Y. Lin, X. Wang, C.-H. Ho, C.-H. Lien, S.-P. Lin, M.J. Li*, Y.-F. Lin*, W.W. Li*, Z.G. Hu, and J.H. Chu, Carrier capture-assisted optoelectronics based on van der Waals materials to imitate medicine-acting metaplasticity.
14. P. Zhang#, N. Cheng#, M.J. Li#, B. Zhou, C. Bian, Y. Wei, X. Wang, H. Jiang, L. Bao, Y.-F. Lin, Z. G. Hu, Y. Du, and Y. J. Gong*, Transition-metal substitution induced lattices strain and electrical polarity reversal in monolayer WS2. ACS Applied Materials &Interfaces 2020, 12, 18650.