职称 教授

办公室
机械楼356

联系电话
0086-

E-mail
zhenchen@seu.edu.cn

Google scholar page: 点击这里
英文网页： click here

个人简介

陈震，教授，中组部国家人才计划第十二批获得者；2018年江苏省双创人才计划专家。现阶段研究兴趣主要包括：1）基本能量载子（声子、电子、光子、分子）在纳米尺度下的传输、存储、转化机理；2）纳米材料、纳米器件在新能源等相关产业中的实际应用。主要成果分别发表在了Nature Communications, Nature Nanotechnology, Nano Letters, Physical Review B和Applied Physics Letters等国际著名期刊上，文章SCI他引超过2000次（Google Scholar）。

2014年 加州大学伯克利分校机械工程系（能源科学与技术专业）博士

2007年 东南大学机械工程系 硕士

2004年 东南大学机械工程系 本科

工作经历


2016年11月——至今 东南大学机械学院 教授，博导


2015年1月——2018年6月 斯坦福大学 博士后


2014年6月——2015年1月 加州大学伯克利分校 博士后


教授课程

《纳米流体传热及分子动力学模拟》

研究方向

1. 各向异性和非线性热传导（热二极管、热三极管等）

2. 热辐射的纳米光子学控制（热辐射制冷、太阳能-热能转换等）

在研项目

1. 热传导和热辐射的动态调制：超高开关比热三极管，国家自然基金面上项目，2018-2021，64万

2. 从大气中无能耗高效获取饮用水技术，江苏省双创人才计划，2018-2020，50万

3. 中组部国家级人才引进计划，2016-2021，200万

获奖情况


1.江苏省双创人才计划（2018年）
2.斯坦福大学“全球环境与能源项目”（GCEP）最佳墙报提名奖（2017年）
3.第十二批中央组织部人才引进计划入选专家（2016年）
4.加州大学伯克利分校“Graduate Division Block Grant”（2012年、2014年）
5.美国国家自然基金委和机械工程师协会“Workshop Grant”（2013年）
6.中国留学基金委“国家优秀自费留学生奖学金”（2011年）
7.江苏省“优秀硕士毕业论文”（2007年）
8.江苏省“优秀学生干部”（2004年）
9.“茅以升奖学金”（2003年）
10.东南大学“校长奖学金”（2001年、2002年、2003年）

论文著作

国际专利：
1.Z.Chen, L. Zhu, A. Raman, E. Goldstein, and S. Fan, 'Ultrahigh-performance Radiative Cooler,' U. S. Patent (non-provisional filed July 17, 2017).
2.W. Li, Y. Shi, Z. Chen, and S. Fan, 'Photonic Thermal Management of Colored Obvjects,' U. S. Patent (provisional filed May 22, 2018 in U.S.).
学术专著：
1.Z. Chenand C. Dames, Applied Thermal Measurements at the Nanoscale, in Lessons from Nanoscience: A Lecture Notes Series, ed. M. Lundstrom, World Scientific Publishing Co. (2018).
期刊论文：
1.Z.Chen, L. Zhu, W. Li, and S. Fan, “Simultaneously and Synergistically Harvest Energy from the Sun and Outer Space,” Joule3, 1-10 (2019).
2.W. Li, Y. Shi, Z. Chen, and S. Fan, “Photonic thermal management of coloured objects,” Nature Communications9,4240 (2018).
3.J. Kou, Z. Jurado, Z. Chen, S. Fan, and A. Minnich, “Daytime Radiative Cooling Using Infrared Black Bodies,” ACS Photonics, 2017,4(3): 626.
4.N.H. Thomas, Z. Chen, S. Fan, and A. J. Minnich, “Semiconductor-based Multilayer Selective Solar Absorber for Unconcentrated Solar Thermal Energy Conversion,” Scientific Reports, 2017, 7: 5362
5.Zhen Chen, Linxiao Zhu, Aaswath Raman, Shanhui Fan, Radiative cooling to deep subfreezing temperatures through a 24-hour day-night cycle, Nature Communications, 2016, 7: 13729
6.Zhen Chen (co-corresponding author), Chris Dames, An anisotropic model for the minimum thermal conductivity, Applied Physics Letters,2015, 107: 193104
7.Zhen Chen, Zhiyong Wei, Yunfei Chen, Chris Dames, Anisotropic Debye model for the thermal boundary conductance, Physical Review B, 2013,87: 125426
8.W. Bao, K. Myhro, Z. Zhao, Z. Chen, W. Jang, L. Jing, F. Miao, H. Zhang, C. Dames, and C. N. Lau, 'In situ observation of electrostatic and thermal manipulation of suspended graphene membranes,” Nano Letters, 2012, 12:5470
9.Wenzhong Bao, Kevin Myhro, Zeng Zhao, Zhen Chen, Wanyoung Jang, Lei Jing, Feng Miao, Hang Zhang, Chris Dames, Chun Ning Lau, In situ observation of electrostatic and thermal manipulation of suspended graphene membranes, Nano Letters,2012, 12(11): 5470-5474
10.Wanyoung Jang, Zhen Chen (co-first author), Wenzhong Bao, Chun Ning Lau, Chris Dames, Thickness-dependent thermal conductivity of encased graphene and ultrathin graphite, Nano Letters, 2010, 10(10): 3909-3913
11. Zhen Chen, Wanyoung Jang, Wenzhong Bao, Chun Ning Lau, Chris Dames, Thermal contact resistance between graphene and silicon dioxide, Applied Physics Letters, 2009, 95: 161910
12.Wenzhong Bao, Feng Miao, Zhen Chen, Hang Zhang, Wanyoung Jang, Chris Dames, Chun Ning Lau, Controlled ripple texturing of suspended graphene and ultrathin graphite membranes, Nature Nanotechnology, 2009, 4: 562-566
13.Zhen Chen, Juekuan Yang, Ping Zhuang, Minhua Chen, Jian Zhu, Yunfei Chen, Thermal conductivity measurement of InGaAs/InGaAsP superlattice thin films, Chinese Science Bulletiin, 2006, 51(23):2931-2936
会议论文：
1.Z.Chen, W. Jang, W. Bao, C. N. Lau, and C. Dames,Heat transfer in encased graphene, ASME Summer Heat Transfer Conference, San Francisco, CA, July 2009
会议报告：
1.Z.Chenand S. Fan, “Ultrahigh Performance Radiative Cooling: towards large-scale deployment,” Global Climate & Energy Project Research Symposium 2017, Stanford, CA,November 2017 (Poster).
2.J. Kou, Z. Jurado, Z. Chen, S. Fan, and A. J. Minnich, “Daytime Radiative Cooling Using Near-Black Infrared Emitters,” U. S. Department of Energy Energy Frontier Research Centers PI Meeting, Washington, D.C., July 2017 (Poster).
3.Z.Chen, L. Zhu, A. Raman, and S. Fan, “Ultrahigh-Performance Radiative Cooling through a 24-hour Day-night Cycle,” MRS Fall Meeting, Boston, MA, November 2016.
4.Z.ChenL. Zhu, A. Raman, and S. Fan, “Ultrahigh Performance Radiative Cooling,” Global Climate & Energy Project Research Symposium 2016, Stanford, CA,November 2016 (Poster).
5.Z.ChenL. Zhu, A. Raman, and S. Fan, “Ultrahigh Performance Radiative Cooling,” Society of Engineering Science (53^rdAnnual Technical Meeting), CollegePark, Maryland, October 2016.
6.Z.Chen, C. Wong, S. Lubner, S. Yee, J. Miller, W.Jang, C. Hardin, A. Fong, J. Garay, and C. Dames, “A photon thermal diode,” 8^thUS-Japan Joint Seminar on Nanoscale Transport Phenomena, Santa Cruz, CA, July 2014 (Invited posterpresentation).
7.Z.Chenand C. Dames, “An anisotropic model for the minimum thermal conductivity,” ASME International Mechanical Engineering Congress & Exposition(IMECE), San Diego, CA, November 2013.
8.Z.Chen, C. Wong, S. Lubner, S. Yee, J. Miller, C.Hardin, A. Fong, J. Garay, and C. Dames, “Experimental demonstration ofballistic thermal rectification using a phonon-photon analogy,” ASME Summer Heat Transfer Conference,Minneapolis, MN, July 2013.
9.Z.Chenand C. Dames, “An anisotropic Debye model for the thermal boundary conductance,” ASME International Mechanical Engineering Congress & Exposition(IMECE), Denver, CO, November 2011.
10.Z. Chenand C. Dames, “An Anisotropic Debye Model for Thermal Contact Resistance,” MRS Fall Meeting, Boston, MA, November 2010 (Poster).
11.Z. Chen, W.Jang, W. Bao, C. N. Lau, and C. Dames, Heat transfer in encased graphene, ASME Summer Heat Transfer Conference, San Francisco, CA, July 2009.