微纳机电系统与集成电路团队

团队负责人：刘向军

成员：熊玉成、李寿航

安全员：熊玉成

学科方向：微纳机电系统

1、团队主攻的研究内容

本团队研究内容属交叉学科方向，融合机械、材料、物理、微电子、光电等多学科内容；主要研究领域包括微纳米尺度热输运、微纳米结构与系统物性调控等基础研究，热电器件设计、微纳机电系统工程、芯片热扩散管理等应用研究。

2、近五年标志性科研成果

获奖：

1)美国大学生数学建模竞赛一等奖，指导教师李寿航

2)上海市集成电路方向研究生导师培训“导师论坛”，李寿航最佳多媒体奖

论文：

1)Shouhang Li^*, Zhen Tong, Cheng Shao, Hua Bao, Thomas Frauenheim, Xiangjun Liu^*. Anomalously Isotropic Electron Transport and Weak Electron–Phonon Interactions in Hexagonal Noble Metals. The Journal of Physical Chemistry Letters, 2022,13 4289-4296.

2)Y. Xiong, G. Zhou, N.-C. Lai, X. Wang, Y.-C. Lu, O. V. Prezhdo and D. Xu. Chemically Switchable n-Type and p-Type Conduction in Bismuth Selenide Nanoribbons for Thermoelectric Energy Harvesting. ACS Nano 2021, 15, 2791-2799.

3)Shi-Qi LI, Xiangjun Liu, Xujun Wang, Hongsheng Liu, Gang Zhang, Jijun Zhao, Junfeng Gao. Eliminating Edge Electronic and Phonon States of Phosphorene Nanoribbon by Unique Edge Reconstruction, Small, 2021, 18,2105130.

4)Wang, Q; Wang, X.; Liu, X^*.; Zhang, J^*. Interfacial engineering for the enhancement of interfacial thermal conductance in GaN/AlN heterostructure, Journal of Applied Physics, 2021, 129, 235102.

5)Shouhang Li, Xinyu Zhang, Hua Bao*, Thermal transport by electrons and phonons in PdTe₂: an ab initio study, Physical Chemistry Chemical Physics, 2021,23, 5956-5962.

6)Liu, X.; Yu, Z.; Zhang, G.; Zhang, Y.-W. Remarkably high thermal-driven MoS2 grain boundary migration mobility and its implications on defect healing. Nanoscale, 2020, 12, 17746.

6)Y. Xiong, N.-C. Lai, Y.-C. Lu and D. Xu. Tuning Thermal Conductivity of Bismuth Selenide Nanoribbons by Reversible Copper Intercalation. International Journal of Heat and Mass Transfer 2020, 159, 120077.

7)Shouhang Li#, Ao Wang#, Yue Hu, Xiaokun Gu, Zhen Tong, Hua Bao*, Anomalous thermal transport in metallic transition-metal nitrides originated from strong electron-phonon interactions, Materials Today Physics, 2020,100256.

8)Y. Xiong, Y. Zhao, Y. Tao, F. Yao, D. Li and D. Xu. Effective Lorenz Number of the Point Contact between Silver Nanowires. Nano Letters 2020, 20, 8576-8583.

9)Shouhang Li, Zhen Tong, Xinyu Zhang, Hua Bao*, Thermal conductivity and Lorenz ratio of metals at intermediate temperatures with mode-level first-principles analysis, Physical Review B,2020,102, 174306.

10)Liu, X.; Gao, J.; Zhang, G.; Zhao, J.; Zhang, Y.-W. The Remarkable role of grain boundaries in the thermal transport properties of phosphorene. ACS Omega, 2020, 5, 17416.

11)Ren, K.; Liu, X.; Chen, S.; Cheng, Y.; Tang, W.; Zhang, G. Remarkable reduction of interfacial thermal resistance in nanophononic heterostructures. Advanced Functional Materials 2020,2004003.

12)Y. Xiong, X. Yu, Y. Huang, J. Yang, L. Li, N. Yang and D. Xu. Ultralow Thermal Conductance of the Van der Waals Interface between Organic Nanoribbons. Materials Today Physics 2019, 11, 100139.

13)Liu X., Zhou H., Zhang, G., Zhang Y.-W. The effects of curvature on the thermal conduction of bent silicon nanowire. JournalofAppliedPhysics 2019,125, 082525.

14)Liu X., Gao J., Zhang, G., Zhang Y.-W. Design of phosphorene/graphene heterojunctions for high and tunable interfacial thermal conductance. Nanoscale 2018, 10. 19854.

15)Shouhang Li#, Xiaoxiang Yu#, Hua Bao*, and Nuo Yang*, High thermal conductivity of bulk epoxy resin by bottom-up parallel-linking and strain: a molecular dynamics study, Journal of Physical Chemistry C,2018, 22, 13140–13147.

16)Liu X., Gao J., Zhang, G., Zhang Y.-W. Unusual twisting phonons and breathing modes in tube-terminated phosphorene nanoribbons and their effects on thermal conductivity. Advanced Functional Materials 2017,27, 1702776.

18)X. Zeng*, Y. Xiong*, Q. Fu, R. Sun, J. Xu, D. Xu and C. P. Wong. Structure-Induced Variation Thermal Conductivity in Epoxy Resin Fibers. Nanoscale 2017, 9, 10585-10589.

19)Liu X., Gao J., Zhang, G., Zhang Y.-W. MoS2-graphene in-plane contact for high interfacial thermal conduction. Nano Research, 2017, 10, 2944.

20)Y. Xiong, H. Tang, X. Wang, Y. Zhao, Q. Fu, J. Yang and D. Xu. Significantly Enhanced Thermal Conductivity of Indium Arsenide Nanowires via Sulfur Passivation. Scientific Reports 2017,7, 13252.

3、正在承担的重要科研项目

1)国家自然科学基金委“外国优秀青年学者基金”项目，2022-2023

2)上海市科委 “探索者计划”项目，2021-2024

3)上海市青年科技英才扬帆计划，2022-2024

4)中央高校基本科研业务费专项资金自由探索项目，2022-2025

4、团队成员担任的主要社会学术兼职、荣誉表彰、人才称号、评审专家或评委、期刊编委等信息  

5、团队的主要社会贡献

待补充