团对责任人人:刘向军
团员:熊玉成、李寿航
稳定员:熊玉成
科室趋势:微纳机电工程系統
1、团队图片主受的研究方案信息内容
本技术团队探讨常见信息内容属交错式课程的方向,相融合自动化、相关材料、初中物理、微手机、光电技术等多课程常见信息内容;常见探讨科技领域涵盖微奈米尺度大热输运、微奈米结构类型与装置物性国家宏观调控等条件探讨,热机械件设计制作、微纳机电水利专业装置水利、IC芯片热发展的管理等采用探讨。2、近五年左右标识性科技成果转化科技成果
获奖者:
1)英国大留学生生高中数学模型制作竞赛方案头等奖,访谈提纲英语教师李寿航
2)武汉市模块化电路系统位置研究分析生讲师培圳“讲师会谈”,李寿航最优多网络媒介奖
文章:
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.
𒅌3)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 PdTe2ꦉ: 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、还在担责的最重要科研开发活动
🌌1)国家地区自然美科学实验股权股权基金委“日本最佳、青年人研究者股权股权基金”的项目,2022-2023
2)重庆市科委 “探索性者工作规划”工作,2021-2024
3)伤害市共青团科技开发优才扬帆记划,2022-2024
4)中共中央高等学校总体科学工作费督查通知经济优质研究投资项目,2022-2025
4、团队协作成员名单出任的重点市场经济科研兼、功勋嘉奖、优秀人才光环、项目验收厂家或评委会、期刊论文编委等数据信息
销售团队人员 | 社会上学术交流在家工作 | 光荣座谈会 | 人材称谓 | 论文期刊编委 | 其它的 |
刘向军 | 日本优秀团队青年人历史学家、广州市国外高层建筑次科技人才(引入)、上海市多层次模型人员方案(国际) | Frontiers in Physics,Review Editor | |||
熊玉成 | Materials Advanced, HKIE Transactions等杂志审稿人 | ||||
李寿航 | 东莞市年轻科技发展育英扬帆设计 | Frontiers in Materials客座编缉 | |||
5、团队协作的主要的的社会贡献奖
待继续补充