Faculty 个人简介
Prof. Zhen Tong now works as an Assistant Professor in the School of Advanced Energy at Sun Yat-Sen University. He received his B.S. in School of Energy and Power Engineering at Huazhong University of Science and Technology (HUST) in 2014, and obtained his Ph.D. in the University of Michigan - Shanghai Jiao Tong University Joint Institute at Shanghai Jiao Tong University (SJTU), in 2019. He joined Sun Yat-Sen University in 2023 as an assistant professor. He visited Purdue University in 2018-2019 as a visiting scholar. His research has been funded by many sponsors, including National Science Foundation of China and the Guangdong National Science Foundation.
童贞,中山大学先进能源学院助理教授,深圳市海外高层次人才、深圳市龙华区龙舞华章高层次人才。本科毕业于华中科技大学,博士毕业于上海交通大学,美国普渡大学访问学者。主要从事微纳尺度能量输运及能源利用研究。在Nature Communications, Nano Letters, Advanced Energy Materials, Physical Review B等高水平学术期刊发表SCI论文30余篇。担任Computational Materials Science国际学术期刊编辑委员会成员,受邀担任《Frontiers in Materials》及《Crystals》客座编辑。主持国家自然科学基金青年基金、广东省自然科学基金面上、青年项目、深圳市优秀科技创新人才项目(青年项目)等国家省部级项目,以及信维通信等企业项目。主讲《传热学》、《半导体物理》、《固体物理》、《电子器件热管理》等本科生和研究生课程。
Research Overview 研究概况
Our lab primarily focuses on gaining a fundamental understanding of energy transport mechanisms at the micro-nano scale and exploring energy utilization, conversion, and storage. At the fundamental level, we develop and implement numerical simulation methods to study thermal transport properties, particularly thermal conductivity and thermal emissivity, at different scales. Our goal is to deepen the understanding of heat conduction and radiation phenomena in a variety of materials, including solid materials, complex porous media, and composite materials. In energy conversion research, we aim to enhance energy conversion efficiency and improve thermal energy dissipation by tuning the thermal properties of materials. Applications of our research include solar thermal energy conversion, radiative cooling, and thermal management in electronics.
童贞主要从事微观尺度能量输运及能源利用研究(工程热物理和能源利用学科),主要关注热传导和热辐射的研究。在研究内容方面,课题组聚焦凝聚态物理、量子输运、先进能源材料、固态电池输运、电子器件热管理及热设计等与电子器件、物理、材料、化学、数据科学等领域的交叉融合前沿科学。在基础理论研究方面,课题组侧重发展多尺度的模拟计算方法(第一性原理、分子动力学、晶格动力学、非晶格动力学、格林函数、蒙特卡洛、机器学习等)研究材料热导率和发射率,包括电子和声子散射、声子重整化、电声耦合输运、缺陷热输运、电-热耦合输运、界面热输运、可见光吸收和红外光辐射等。在应用研究方面,课题组侧重开展光热转换及储能系统设计、辐射制冷材料设计、热界面复合材料设计、芯片内部散热设计、无线充电散热片设计、固态电池等涉及能量输运、转化以及利用方面的研究。
Recruitment 招生概况
Our group is currently looking for graduate students interested in micro- and nanoscale energy transport, utilization, conversion, and storage, with a focus on heat conduction and thermal radiation transfer. Prospective students with a background in mechanical engineering (especially heat transfer), electrical engineering, materials science, or physics are encouraged to apply. For more information, please contact Prof. Tong. Additionally, undergraduate students are welcome to join the lab to gain valuable research experience.
本课题组正在招收研究生:课题组目前主要从事微纳尺度热传热的相关基础理论和应用技术研究,有兴趣的同学请发邮件联系并了解相关信息(邮箱)。因为相关科研属于交叉学科范畴,本课题组主要面向能源与动力,电子科学与技术,材料,物理等专业,其他理工科专业的优秀同学发邮件联系并进一步了解本课题组相关研究。导师通过定期的一对一指导,以及组会等方式指导,为有志于从事科学研究的同学提供良好的科研环境。课题组除了注重研究生学习能力,分析和解决问题的能力培养之外,也注重思维能力,(英语)表达和写作能力,交流沟通的能力等各方面的全面培养。课题组也通过邀请国外专家访问,参加国际学术会议,以及短期出国访问等方式,为研究生同学的国际学术交流提供机会。
本科生科研项目:本课题组也通过中山大学大学生创新实践项目,本科生科导师制等项目招收本科学生进行一些科学研究。如果有中山大学相关专业的本科同学有兴趣在本实验室获得一些科研经历,也非常欢迎和本课题组联系。
Faculty 教师
Ph.D., 2019, Mechanical Engineering, Shanghai Jiao Tong University 上海交通大学
B.S., 2014, Mechanical Engineering, Huazhong University of Science and Technology 华中科技大学
Email: tongzh3@mail.sysu.edu.cn
Graduate Students 研究生
 | Zhang, Yatian Ph.D. 张雅恬 (博士研究生,University of Bremen 不来梅大学联合培养) M.S., 2021, Beihang University 北京航空航天大学 B.S., 2018, Beihang University 北京航空航天大学 Research Interest: Thermal transport mechanism of solid materials from first-principles 固体材料热输运机制的第一性原理研究 Email: yatzhang@uni-bremen.de |
 | Zeng, Sixiao M.S. 曾思晓 (硕士研究生) B.S., 2024, South China Agriculture University 华南农业大学 Research Interest: Thermal transport at ultra-high temperatures 超高温热输运 Email: zengsixiao1@163.com |
 | Chen, Xiangchuan M.S. 陈祥川 (硕士研究生) B.S., 2025, Donghua University 东华大学 Research Interest: Electron-phonon coupling transport 电子-声子耦合输运 Email: chenxc3243@163.com |
Undergraduate Students 本科生
 | Wu, Yongjun 吴咏君 (本科生,中山大学) Research Interest: Thermal transport mechanism of solid electrolytes 固态电解质热输运机制研究 |
 | Zhang, Yan 张妍 (本科生,中山大学) Research Interest: Thermal transport mechanism of hydrogen storage materials 储氢材料的热输运机制研究 |
 | Li, Chujie 李楚杰 (本科生,中山大学) Research Interest: Thermal transport at ultra-high temperatures 超高温热输运 |
 | Liu, Youwei 刘友伟 (本科生,中山大学) Research Interest: Simulation of thermal transport in battery 电池散热仿真 |
 | Li, Kunye 李昆烨 (本科生,中山大学) Research Interest: Interface thermal transport in solid electrolytes 固态电解质界面热输运 |
 | Zhu, Yixun 朱一逊 (本科生,中山大学) Research Interest: Thermal transport in thermal interface materials 热界面材料热输运 |
Reasearch Area of the Group 课题组主要的研究方向
Journal Articles: (#equal contributions, *corresponding author)
[44] Minhui Yuan, Zhen Tong*, Qing Cao, Wenjie Li, Min Ruan, Jiahao Jiang, Jingyi Lyu, Ran He*, Jing Shuai*, and Yanglong Hou*, Cation Mg-dominated Coherent Phonon Transport Leads to Anomalous Thermal Conductivity in Mg3Bi2, Advanced Energy Materials, 2025. (Under Review)
[43] Yatian Zhang, Thomas Frauenheim, Traian Dumitrica*, and Zhen Tong*, Thermal Energy Transport in Li3OCl Solid State Electrolyte: Quantifying Vibrational and Ionic Contributions, Journal of Materials Chemistry A, 2025. (Under Review)
[42] Chujie Li, Zhen Tong*, Comprehensive Study of Thermal Conductivity and Infrared Dielectric Properties of PbTe, International Communications in Heat and Mass Transfer, 2025. (Under Review)
[41] Yan Zhang, Yongjun Wu, Zhen Tong*, Effects of Uniaxial Strain on the Thermal Conductivity of Boron Arsenide, The Journal of Physical Chemistry C, 129, 13457−13463, 2025. (link)
[40] Yongjun Wu, Yan Zhang, Zhen Tong*, Accurately predicting the thermal conductivity of boron arsenide considering the temperature-induced phonon anharmonic renormalization: a critical revisit, Physical Chemistry Chemical Physics, 27, 15119-15125, 2025. (link)
[39] Juan Wang, Yixiu Luo*, Zhen Tong, Huimin Xiang, Luchao Sun, Jingyang Wang*, Electronic and dielectric properties of rare-earth oxides in visible and near-infrared range: A first-principles study, Journal of American Ceramic Society, e70045, 2025. (link)
[38] Zhen Tong*, Yatian Zhang, Thomas Frauenheim, and Traian Dumitrica*, Layered Germanium–Selenium Compounds as Phonon–Glass Electron–Crystals: A Pathway to Enhance the Thermoelectric Performance, Nano Letters, 25, 7283-7291, 2025. (link)
[37] Yatian Zhang, Thomas Frauenheim, Traian Dumitrica*, and Zhen Tong*, Lonesome Ag Atoms Drive Ultralow Thermal Conductivity in Argyrodite Ag8SnSe6, PRX Energy, 4, 013012, 2025. (link)
[36] Jianshi Sun, Shouhang Li*, Cheng Shao, Zhen Tong, Meng An, Yuhang Yao, Yue Hu, Xiongfei Zhu, Yifan Liu, Renzong Wang, Xiangjun Liu*, and Thomas Frauenheim, Unlocking high hole mobility in diamond over a wide temperature range via efficient shear strain, Applied Physical Review, 12, 011408, 2025. (link)
[35] Jianshi Sun, Shouhang Li*, Zhen Tong, Cheng Shao, Meng An, Xiongfei Zhu, Chuang Zhang, Xiangchuan Chen, Renzong Wang, Yucheng Xiong, Thomas Frauenheim, and Xiangjun Liu*, Giant Enhancement of Hole Mobility for 4H-Silicon Carbide through Suppressing Interband Electron–Phonon Scattering, Nano Letters, 24, 10569−10576, 2024. (link, selected as Cover)
[34] Peng-Fei Liu, Xiyang Li, Jingyu Li, Jianbo Zhu, Zhen Tong, Maiko Kofu, Masami Nirei, Juping Xu, Wen Yin, Fangwei Wang, Tianjiao Liang, Lin Xie, Yongsheng Zhang, David J. Singh, Jie Ma, Hua Lin*, Junrong Zhang*, Jiaqing He*, and Bao-Tian Wang*, Strong low-energy rattling modes enabled liquid-like ultralow thermal conductivity in a well-ordered solid, National Science Review, 12, nwae216, 2024. (link)
[33] Jianshi Sun, Shouhang Li*, Zhen Tong, Cheng Shao, Xiangchuan Chen, Qianqian Liu, Yucheng Xiong, Meng An, and Xiangjun Liu*, Weak effects of electron-phonon interactions on the lattice thermal conductivity of wurtzite GaN with high electron concentrations, Physical Review B 109, 134308, 2024. (link)
[32] Zhen Tong*, Alessandro Pecchia, ChiYung Yam, Traian Dumitrica*, and Thomas Frauenheim*, Glass-like Transport Dominates Ultralow Lattice Thermal Conductivity in Modular Crystalline Bi4O4SeCl2, Nano Letters, 23, 9468-9473, 2023. (link) [News, News]
[31] Zhen Tong*, Traian Dumitrica*, and Thomas Frauenheim*, Intrinsically Low Thermal Conductivity in the Most Lithium-Rich Binary Stannide Crystalline Li5Sn, Journal of Physical Chemistry Letters, 14, 8139-8144, 2023. (link) [News]
[30] Yatian Zhang, Thomas Frauenheim*, Traian Dumitrica*, and Zhen Tong*, Theoretical Insights into Thermal Conductivity Variations in Various Phases of the Cu2Te Multiphase Transition Material, ACS Applied Energy Materials, 6, 9657-9662, 2023. (link)
[29] Zhen Tong*, Yatian Zhang, Alessandro Pecchia, ChiYung Yam, Liujiang Zhou, Traian Dumitrica*, and Thomas Frauenheim*, Predicting the lattice thermal conductivity in nitride perovskite LaWN3 from ab initio lattice dynamics, Advanced Science, 10, 2205934, 2023. (link) [News]
[28] Zhen Tong*, Long Li*, Andrei Dernov, Traian Dumitrica*, and Thomas Frauenheim*, Multitemperature Modeling of Thermal Transport across Au-GaN Interface from Ab Initio Calculations, ACS Applied Electronic Materials, 4, 4553-4559, 2022 (link)
[27] Yatian Zhang, Zhen Tong*, Alessandro Pecchia, ChiYung Yam, Traian Dumitrica*, and Thomas Frauenheim*, Four-Phonon and Electron-Phonon Scattering Effects on Thermal Properties in Two-Dimensional 2H-TaS2, Nanoscale, 14, 13053, 2022 (link)
[26] Zhen Tong*, Alessandro Pecchia, ChiYung Yam, Liujiang Zhou, Traian Dumitrica*, and Thomas Frauenheim*, Anisotropic phononic and electronic thermal transport in BeN4, Journal of Physical Chemistry Letters, 13, 4501-4505, 2022. (link)
[25] Long Li, Feng He*, Xu Zhao, Zhen Tong, and Liang Guo*, Effect of diffusion on acoustic deformation potential characterization through coherent acoustic phonon dynamics, Physical Review B, 106, L060304, 2022. (link)
[24] Andrei Dernov, Zhen Tong, Ravi Kumar, Pulkit Agarwal, Thomas Frauenheim, and Traian Dumitrica*, Density Functional-Based Tight-Binding Simulations of Pristine and Aluminum-Modified Silica, Advanced Theory and Simulations, 2200284, 2022. (link)
[23] Shouhang Li*, Zhen Tong, Cheng Shao, Hua Bao, Thomas Frauenheim, and Xiangjun Liu*, Anomalously Isotropic Electron Transport and Weak Electron-phonon Interactions in Hexagonal, Journal of Physical Chemistry Letters, 13, 4289-4296, 2022. (link)
[22] Zhen Tong*, Alessandro Pecchia, ChiYung Yam, Traian Dumitrica*, and Thomas Frauenheim*, Ultrahigh Electron Thermal Conductivity in T-graphene, Biphenylene, and Net-graphene, Advanced Energy Materials, 12, 2200657, 2022. (link, selected as Cover) [News]
[21] Zhen Tong, Joseph Peoples, Xiangyu Li, Xiaolong Yang, Hua Bao*, and Xiulin Ruan*, Electronic and phononic origins of BaSO4 as an ultra-efficient radiative cooling paint pigment, Materials Today Physics, 24, 100658, 2022. (link) [News]
[20] Zhen Tong*, Alessandro Pecchia, ChiYung Yam, Hua Bao, Traian Dumitrica*, and Thomas Frauenheim*, Significant increase of electron thermal conductivity in Dirac semimetal Beryllonitrene by doping beyond van Hove singularity, Advanced Functional Materials, 32, 2111556, 2022. (link) [News, selected as a Highly Cited Paper]
[19] Zhen Tong, Alessandro Pecchia, ChiYung Yam, Traian Dumitrica*, and Thomas Frauenheim*, Phononic thermal transport along graphene grain boundaries: A hidden vulnerability, Advanced Science, 8, 2101624, 2021. (link)
[18] Zhen Tong, Traian Dumitrica*, and Thomas Frauenheim*, Ultralow thermal conductivity of two-dimensional MoO3, Nano Letters, 21, 4351–4356, 2021. (link)
[17] Zhen Tong, Traian Dumitrica*, and Thomas Frauenheim*, First-principles prediction of infrared phonon and dielectric function in biaxial hyperbolic van der Waals crystal α-MoO3, Physical Chemistry Chemical Physics, 23, 19627, 2021. (link)
[16] Xiao Guo, Zeyu Peng, Pengbo Ding, Long Li, Xinyi Chen, Haoyun Wei, Zhen Tong, and Liang Guo*, Nonlinear optical properties of 6H-SiC and 4H-SiC in an extensive spectral range, Optical Material Express, 11, 1080-1092, 2021. (link)
[15] Shouhang Li, Zhen Tong, Xinyu Zhang, and Hua Bao*, Thermal conductivity and Lorenz ratio of metals at intermediate temperatures with mode-level first-principles analysis, Physical Review B, 102, 174306, 2020. (link)
[14] Shouhang Li, Ao Wang, Yue Hu, Xiaokun Gu, Zhen Tong, and Hua Bao*, Anomalous thermal transport in metallic transition-metal nitrides originated from strong electron-phonon interactions, Materials Today Physics, 15, 100256, 2020. (link)
[13] Evan Witkoske, Zhen Tong, Yining Feng, Xiulin Ruan, Mark Lundstrom, and Na Lu*, The use of strain and grain boundaries to tailor phonon transport properties: A first principles study of 2H-phase CuAlO2 (Part II), Journal of Applied Physics, 127, 115108, 2020. (link)
[12] Zhen Tong, Xiaolong Yang, Tianli Feng, Hua Bao*, and Xiulin Ruan*, First-principles predictions of temperature-dependent infrared dielectric function of polar materials by including four-phonon scattering and phonon frequency shift, Physical Review B, 101, 125416, 2020. (link)
[11] Zhen Tong, Shouhang Li, Xiulin Ruan, and Hua Bao*, Comprehensive first-principles analysis of phonon thermal conductivity and electron-phonon coupling in different metals, Physical Review B, 100, 144306, 2019. (link)
[10] Si Wu, Tingxian Li*, Zhen Tong, Jingwei Chao, Tianyao Zhai, Jiaxing Xu, Taisen Yan, Minqiang Wu, Zhenyuan Xu, Hua Bao, Tao Deng* and Ruzhu Wang*, High-performance thermally conductive phase change composites by large-size oriented graphite sheet for scalable thermal energy harvesting, Advanced Materials, 1905099, 2019. (link)
[9] Shouhang Li, Zhen Tong, and Hua Bao*, Resolving different scattering effects on the thermal and electrical transport in doped SnSe, Journal of Applied Physics, 126, 025111, 2019. (link)
[8] Peng Tao*, Chao Chang, Zhen Tong, Hua Bao, Chengyi Song, Jianbo Wu, Wen Shang, and Tao Deng*, Magnetically-accelerated large-capacity solar-thermal energy storage within high-temperature phase-change materials, Energy & Environmental Science, 12, 1613-1621, 2019. (link)
[7] Xiaoyuan Ying, Zhen Tong, Wei Yu, and Hua Bao*, Analysis of volumetric solar collectors based on inserted absorber plates, Journal of Engineering Thermophysics, 39(12), 2795-2798, 2018. (Chinese, link)
[6] Zhen Tong, Linhua Liu, Liangsheng Li*, and Hua Bao*, Temperature-dependent infrared optical properties of 3C-, 4H- and 6H-SiC, Physica B: Condensed Matter, 537, 194-201, 2018. (link)
[5] Zhen Tong and Hua Bao*, Decompose the electron and phonon thermal transport of intermetallic compounds NiAl and Ni3Al by first-principles calculations, International Journal of Heat and Mass Transfer, 117, 972-977, 2018. (link)
[4] Zhongyong Wang#, Zhen Tong# (Co-first Author), Qinxian Ye#, Hang Hu, Xiao Nie, Chen Yan, Wen Shang, Chengyi Song, Jianbo Wu, Jun Wang, Hua Bao*, Peng Tao*, and Tao Deng*, Dynamic tuning of optical absorbers for accelerated solar-thermal energy storage, Nature Communications, 8, 1478, 2017. (link)
[3] Zhen Tong, Meng Liu, and Hua Bao*, A numerical investigation on the heat conduction in high filler loading particulate composites, International Journal of Heat and Mass Transfer, 100, 355-361, 2016. (link)
[2] Zhen Tong, Meng Liu, and Hua Bao*, Unit cell finite element analysis on high filler loading composites, Journal of Engineering Thermophysics, 37(3), 633-636, 2016. (Chinese, link)
[1] Jingchao Zhang, Yang Hong, Zhen Tong, Zhihuai Xiao*, Hua Bao, and Yanan Yue*, Molecular Dynamics Study of Interfacial Thermal Transport between Silicene and Substrate, Physical Chemistry Chemical Physics, 17, 23704, 2015. (link)
Conference Papers:
[4] Zhen Tong, Shouhang Li, and Hua Bao, A comprehensive first-principles analysis of phonon thermal conductivity and electron-phonon coupling in different metals, ASME Technical presentation IMECE2019-12753, Proceedings of the 2019 ASME International Mechanical Engineering Congress and Exposition, November 11-14, 2019, Salt Lake City, USA.
[3] Shouhang Li, Zhen Tong, and Hua Bao, Effects of electron-phonon interactions on lattice thermal conductivity of doped SnSe, Technical paper IHTC16-22971, 16th International Heat Transfer Conference, August 2018, Beijing, China.
[2] Zhen Tong and Hua Bao, Electron-phonon coupling contribution to thermal transport in Ni3Al from first principles, ASME Technical presentation IMECE2017-70673, Proceedings of the 2017 ASME International Mechanical Engineering Congress and Exposition, November 03-11, 2017, Tampa, Florida, USA
[1] Zhen Tong, Meng Liu, and Hua Bao, Unit cell finite element analysis on high filler loading composites, Technical presentation and paper 2016-6667, Proceedings of Engineering Thermophysics Heat & Mass Transfer Conference, Oct. 30-Nov. 2, 2016, Dalian, China. (Chinese conference)
News of the group 课题组相关新闻
06/2025 Award: Prof. Zhen Tong was awarded the First Prize of the 13th Teacher Teaching Competition of Sun Yat-sen University. 童贞老师获得中山大学第十三届教师教学竞赛一等奖。
05/2025 Invited talk: Prof. Zhen Tong gave an online invited presentation at Harbin Institute of Technology. 童贞老师受哈尔滨工业大学学者邀请做了线上邀请报告。
05/2025 Invited talk: Prof. Zhen Tong gave an invited presentation at Shenzhen Sunway Communication Co., Ltd., 童贞老师在深圳市信维通信股份有限公司做了邀请报告。
04/2025 Invited talk: Prof. Zhen Tong gave an invited presentation at the 2025 JFS Conference and Compound Semiconductor Industry Expo in Wuhan. 童贞老师在2025九峰山论坛暨化合物半导体产业博览会做了邀请报告。
03/2025 Invited talk: Prof. Zhen Tong gave an invited presentation at Xi'an. 童贞老师在新质生产力-功能材料与先进光电材料器件大会(西安)做了邀请报告。
12/2024 Award: Prof. Zhen Tong was awarded the Second Prize of the 2024 Natural Science Award by the Chinese Society of Engineering Thermophysics. 童贞老师获得2024年度中国工程热物理学会自然科学二等奖(排名第二)。
11/2024 Invited Talk: Prof. Zhen Tong gave an invited presentation at the 2024 Forum of the Guangdong-Hong Kong-Macao University Alliance, China. 童贞老师在粤港澳高校联盟2024年论坛做了邀请报告。
11/2024 Invited Talk: Prof. Zhen Tong gave an invited presentation at Southern University of Science and Technology, China. 童贞老师在南方科技大学做了邀请报告。
10/2024 Invited Talk: Prof. Zhen Tong gave an invited presentation at Hebei Normal University, China. 童贞老师在河北师范大学做了邀请报告。
09/2024 New Member: Sixiao Zeng joined our group as a master's student. Welcome! 欢迎曾思晓同学加入课题组攻读硕士学位。
08/2024 Competition: The team led by Yongjun Wu and instructed by Prof. Zhen Tong is awarded the first prize in the 17th National University Student Social Practice and Science Contest on Energy Saving and Emission Reduction. 由吴咏君同学为队长、童贞老师唯一指导的团队获得了第十七届全国大学生节能减排社会实践与科技竞赛一等奖。
05/2024 New Members: Xiawei Zhang and Ming Huang joined our group. Welcome! 欢迎张夏玮和黄铭同学加入课题组。
04/2023 Invited Talk: Prof. Zhen Tong gave an invited presentation at Xi'an Jiao Tong University, China. 童贞老师在西安交通大学做了邀请报告。
12/2023 Competition: The team led by Chujie Li, under the guidance of Prof. Zhen Tong, was awarded second prize in the 2nd International Low-Carbon City Forum (Shenzhen). 由李楚杰同学为队长、童贞老师唯一指导的团队获得了深圳国际低碳城论坛·第二届高校青年“双碳”知识竞赛二等奖。
12/2023 Invited Talk: Prof. Zhen Tong gave an invited presentation at the Seminar on transport theory in condensed matter at Chongqing University, China. 童贞老师在重庆大学举办的凝聚态中输运理论研讨会上做了邀请报告。
11/2023 Invited Talk: Prof. Zhen Tong gave an invited presentation at the University of Electronic Science and Technology of China (Shenzhen), China. 童贞老师在电子科技大学(深圳)做了邀请报告。
11/2023 Invited Talk: Prof. Zhen Tong gave an invited presentation at Chengdu University, China. 童贞老师在成都大学做了邀请报告。
10/2023 Publication: Prof. Zhen Tong published a research work in Nano Letters. 童贞老师在国际著名期刊《Nano Letters》上发表文章。
04/2023 New Position: Dr. Zhen Tong joined Sun Yat-Sen University as an Assistant Professor. 童贞老师于2023年4月加入中山大学。
Collaborators 合作团队(部分)
Prof. Thomas Frauenheim, University Bremen, Germany
Prof. Traian Dumitrica, University of Minnesota, USA
Prof. Chi-Yung Yam, University of Electronic Science and Technology of China, China
Dr. Alessandro Pecchia, National Council of Research–Institute for the Study of Nanostructured Materials (CNR-ISMN), Italy
Prof. Hua Bao, Shanghai Jiao Tong University, China
Prof. Xiulin Ruan, Purdue University, USA
Prof. Zhibing Gao, Xi'an Jiao Tong University, China
Prof. Xiaolong Yang, Chongqing University, China
Prof. Shouhang Li, Donghua University, China
Prof. Liang Guo, Southern University of Science and Technology, China
Prof. Baotian Wang, Chinese Academy of Sciences, China
Prof. Xinzhi Wang, Harbin Institute of Technology, China
Prof. Jing Shuai, Sun Yat-Sen University, China
Prof. Shuo Li, Chengdu University, China
课题组和美国明尼苏达大学、普渡大学、德国不来梅大学等诸多国外研究团队开展深入的合作,也和上海交通大学密西根学院、西安交通大学材料学院、中山大学材料学院、哈尔滨工业大学化学学院、电子科技大学电子信息与电气工程学院、高性能计算中心开展跨学科的科研合作。
Funding Supports 基金资助(部分)
National Natural Science Foundation of China
Natural Science Foundation of Guangdong Province
Natural Science Foundation of Shenzhen
