教师名录

陈震教授博士生导师
所在院系:机械设计工程系
办公室:机械楼356
电话:52090509
邮箱:zhenchen@seu.edu.cn
个人简介

陈震,东南大学青年首席教授,中央组织部人才计划青年项目(2016年)


Website: https://sites.google.com/site/zchen0203/

ORCID: https://orcid.org/0000-0002-5422-8807

Google Scholar: https://scholar.google.com/citations?user=qKZKCIgAAAAJ


2014年于加州大学伯克利分校机械工程系获博士学位,后于斯坦福大学应用物理系Ginzton实验室从事博士后研究。研究专长为通过对光子、声子、电子、分子等基本能量载子的热输运进行调控,解决芯片散热、新能源和淡水等工程问题。多次受邀主持美国机械工程师协会、中国工程热物理年会等分会场会议,并作邀请报告;出版英文专著一部(World Scientific Publishing Co. 2018);以第一或通讯作者在JouleNature Communications等权威期刊发表原创性文章,其中包括2篇被列为前1%的高被引论文,SCI他引近4000次(Google Scholar)。


陈震教授于2016年和2018年底分别发表在Nature CommunicationsJoule上的关于利用宇宙超低温背景散热的论文引发了全球新一轮的绿色能源热,被全球多个媒体报道,包括英国的New Scientists,德国的Welt Der Physik,美国的Science Daily,世界顶尖学术杂志Cell Press以及中国知网,雅虎(Yahoo)科技频道和商业频道等。目前与珈伟创投有限公司合作将该技术应用于锂电池存储仓的无源热管理。


部分课题组成员毕业去向:

1、陈恒锐(2022硕):新加坡国立大学(博士);

2、陈子杰(2022硕):TP-Link深圳;

3、顾中天(2023硕):University of Notre Dame (博士);

4、潘立(2023硕):TP-Link南京;

5、董铭豪(2023博):香港大学(博士后);

6、李涛(博士在读):加州大学伯克利分校(博士联培)。

学习经历
工作经历

2021年1月——至今 东南大学青年首席教授

2019年6月——至今 东南大学机械学院 副院长(分管研究生培养、国际合作)

2016年9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

本科生课程:《热工基础》,《能源与纳米科技》(吴健雄学院课程),《微流体与纳米传热》

研究生课程:《Heat Transfer Physics》,《高等传热学》


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调制(热辐射制冷、太阳能-热能转换等)3. 纳米结构的热物性测试和理论建模(芯片散热,弹道热输运)
审稿期刊

Science

Joule

Nature Sustainability

Nano Energy

Nano Letters

Physical Review B

Applied Physics Letters

Journal of Applied Physics

Review of Scientific Instruments

ACS Photonics

Optics Express

International Journal of Heat and Mass Transfer

ACS Applied Materials & Interfaces

Scientific Reports

Advanced Energy Materials

Physica Status Solidi A

IEEE Transactions on Nanotechnology

Solar Rapid Research Letters

Beilstein Journal of Nanotechnology

Journal of Vacuum Science and Technology


学术兼职

1. Committee member of K-9 (Heat Transfer Division of ASME)

2. 江苏省工学 I 类研究生教指委委员

3. 江苏省真空协会会员

获奖情况

11. 江苏省“六大人才高峰”(2019年)

10. 江苏省“双创人才”(2018年)

9. 斯坦福大学“全球环境与能源项目”(GCEP)最佳墙报提名奖(2017年)

8. 第十二批中央组织部人才引进计划入选专家(2016年)

7. 加州大学伯克利分校“Graduate Division Block Grant”(2012年、2014年)

6. 美国国家自然基金委和机械工程师协会“Workshop Grant”(2013年)

5. 中国留学基金委“国家优秀自费留学生奖学金”(2011年)

4. 江苏省“优秀硕士毕业论文”(2007年)

3. 江苏省“优秀学生干部”(2004年)

2. “茅以升奖学金”(2003年)

1. 东南大学“校长奖学金”(2001年、2002年、2003年)


论文著作

英文专著 Invited Books

1.   Z. Chen and 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 Refereed Journal Publications

Overall citation is over 3,000 according to Google Scholar (http://scholar.google.com/citations?user=qKZKCIgAAAAJ&hl=en)

23. B. Jiang, T. Li, and Z. Chen, “Anisotropic Klemens model for the thermal conductivity tensor and its size effect,” International Journal of Heat and Mass Transfer 226, 125474 (2024).

22. Z. Zhang, X. Zhao, and Z. Chen, “Energy scavenging from the diurnal cycle with a temperature-doubler circuit and a self-adaptive photonic design,” Nanophotonics 13(5), 687-699 (2024).

21. T. Li, and Z. Chen, “A Scattering Matrix Formalism to Model Periodic Heat Diffusion in Stratified Solid Media,” Journal of Applied Physics 132, 125103 (2022). (highlighted as an Editor’s Pick)

20. M. Dong, L. Zhu, S. Fan, and Z. Chen, Concentrated radiative cooling and its constraint from reciprocity, Optics Express 30, 275-285 (2022).          (highlighted as an Editor's Pick)

19. Z. Zhang, K. Chen, S. Fan, and Z. Chen, “Shockley-Queisser analysis of the temperature-efficiency correlation of solar cells in the presence of non-radiative heat transfer,” Optics Express 29, 27554-27561 (2021).

      Erratum: There is a typographical error in the published verison of Fig. 2.  The correct title of the x-axis of Fig. 2c-d is: Effective Absorptivity in regime II.

18. M. Westwood, X. Zhao, Z. Chen (co-corresponding author) and C. Dames, “4-fold enhancement in energy scavenging from fluctuating thermal resources using a temperature-doubler circuit,” Joule 5, 2223-2240 (2021).

17. L. Li, L. Zhang, L. Zhang, Y. Zhong, Evelyn N. Wang, Z. Chen (co-corresponding author),and L. Guo, “Sub-Picosecond Optical Response of Metals Due to Non-Thermalized Electron Dynamics”, ES Energy & Environment 11, 19-27 (2021).

16. W. Li, M. Dong, L. Fan, J. J. John, Z. Chen, and S. Fan, “Nighttime Radiative Cooling for Water Harvesting from Solar Panels,” ACS Photonics 8, 269–275 (2021).

15. N. Chen, T. Li, Y. Wang, L. Pan, W. Bao, and Z. ChenGeneralized “Slope Method” of the 3ω Analysis to Measure the Thermal Conductivity and Heat Capacity of Solids: Frequency- vs. Current-sweepES Energy & Environment10, 13-21 (2020).    

14. M. Dong, Z. Zhang, Y. Shi, X. Zhao, S. Fan, and Z. ChenFundamental Limits of the Dew-harvesting Technology,Nanoscale and Microscale Thermophysical Engineering 24(1), 43-52 (2020).               (selected as cover image)

13. M. Dong, N. Chen, X. Zhao, S. Fan, and Z. Chen, “Nighttime Radiative Cooling in Hot and Humid Climates,” Optics Express27, 31587-31598 (2019).

12. Z. Chen, L. Zhu, W. Li, and S. Fan, “Simultaneously and Synergistically Harvest Energy from the Sun and Outer Space,” Joule 3, 101-110 (2019).

11. W. Li, Y. Shi, Z. Chen, and S. Fan, “Photonic thermal management of coloured objects,” Nature Communications 9, 4240 (2018).

10. 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 7, 5362 (2017).

9.  J. Kou, Z. Jurado, Z. Chen, S. Fan, and A. Minnich, “Daytime Radiative Cooling Using Infrared Black Bodies,” ACS Photonics 4(3), 626 (2017).

8.   Z. Chen, L. Zhu, A. Raman, and S. Fan, “Radiative cooling to deep subfreezing temperatures through a 24-hour day-night cycle,” Nature Communications 7, 13729 (2016).

7.   Z. Chen (co-corresponding author) and C. Dames, “An anisotropic model for the minimum thermal conductivity,” Applied Physics Letters 107, 193104 (2015).

6.    Z. Chen, Z. Wei, Y. Chen, and C. Dames, Anisotropic Debye model for the thermal boundary conductance, Physical Review B 87, 125426 (2013).

5.    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 12, 5470 (2012).

4.    W. Jang, Z. Chen (co-first author), W. Bao, C. N. Lau, and C. Dames, Thickness-dependent thermal conductivity of encased graphene and ultrathin graphite, Nano Letters 10, 3909 (2010).

3.    Z. Chen, W. Jang, W. Bao, C. N. Lau, and C. Dames, Thermal contact resistance between graphene and silicon dioxide, Applied Physics Letters 95, 161910 (2009).

2.    W. Bao, F. Miao, Z. Chen, H. Zhang, W. Jang, C. Dames, and C. N. Lau, Controlled ripple texturing of suspended graphene and ultrathin graphite membranes, Nature Nanotechnology 4, 562 (2009).

1.    Z. Chen, J. Yang, P. Zhuang, M. Chen, J. Zhu, and Y. Chen, “Thermal conductivity measurement of InGaAs/InGaAsP superlattice thin films,” Chinese Science Bulletin (in English) 51, 2931 (2006).

  

会议报告 Conference Presentations

中文报告

【3】 陈震:导热与辐射:声子与光子热输运的对比与类比(特邀报告), 中国工程热物理学会传热传质学术会议暨国家自然基金项目进展交流 会(热传导分会场), 武汉(线上), 2022年12月

【2】陈震:热辐射的纳米光子学调控(特邀报告), 第一届中国超材料大会(热学超材料分会场), 西安 , 2019年11月

【1】陈震:辐射制冷(特邀报告), 中国工程热物理学会传热传质学术会议暨国家自然基金项目进展交流 会(热传导分会场), 青岛, 2019年10月


英文报告

24Z. Chen, “Constraints of Onsager reciprocal relations on modeling thermal transport,” The International Symposium on Multiscale Simulations of Thermophysics, Shenzhen, China, June 2023 (Keynote).

23. Z. Zhang, X. Zhao, and Z. Chen, “Fundamental Limits of the Thermal H-Bridge under  Realistic Multi-Mode Solar-Thermal Boundary Condition,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2022.

22. T. Li and Z. Chen, “Modeling the High-frequency Periodic Heating of a Line-heater-on-substrate Structure: towards a Ballistic 3ω Method”, ASME Summer Heat Transfer Conference, Virtual, June 2022.

21. H. Chen and Z. Chen, “Modeling Anisotropic Thermal Transport in Black-phosphorus-like Materials,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2021.

20. T. Li and Z. Chen, “A Scattering Matrix Scheme to Model the Periodic Heating Problem in Layered Structures,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2021.

19. Z. Zhang, K. Chen, S. Fan, and Z. Chen, “Shockley-Queisser Analysis of the Temperature-Efficiency Correlation of Solar Cells in the Presence of Non-Radiative Heat Transfer,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2021.

18. N. Chen, T. Li, Y. Wang, L. Pan, W. Bao, and Z. Chen, “Generalized “Slope Method” of the 3ω Analysis to Measure k and C of Solids: Frequency- vs. Current-sweep”, ASME Summer Heat Transfer Conference, Virtual, June 2021.

17. M. Dong, L. Zhu, S. Fan, and Z. Chen, “Concentrated Radiative Cooling and Its Constraint from Reciprocity”, ASME Summer Heat Transfer Conference, Virtual, June 2021.

16. M. Dong, Z. Zhang, Y. Shi, X. Zhao, S. Fan, and Z. Chen, “Fundamental Limits of the Dew-Harvesting Technology,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2020.

15. Z. Chen, “Anisotropic and selective thermal transport,” International Conference on Thermodynamics and Thermal Metamaterials (ThermoMeta), Virtual, August 2020 (Invited).

14. Z. Chen, L. Zhu, W. Li, and S. Fan, “Simultaneously Harvest Energy from the Sun and Outer Space using the same Physical Area,” ASME Summer Heat Transfer Conference, Bellevue, WA, July 2019.

13. M. Dong and Z. Chen, “Radiative Cooling in Hot and Humid Areas,” 6thASME International Conference of Micro/Nanoscale Heat and Mass Transfer (MNHMT), Dalian, China, July 2019.

12. Z. Chen, L. Zhu, W. Li, and S. Fan, “Simultaneously and Synergistically Harvest Energy from the Sun and Outer Space,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Pittsburgh, PA, November 2018.

11.  Z. Chen and S. Fan, “Ultrahigh Performance Radiative Cooling: towards large-scale deployment,” Global Climate & Energy Project Research Symposium 2017, Stanford, CA, November 2017 (Poster).

10.  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).

9.    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.

8.    Z. Chen L. Zhu, A. Raman, and S. Fan, “Ultrahigh Performance Radiative Cooling,” Global Climate & Energy Project Research Symposium 2016, Stanford, CA, November 2016 (Poster).

7.    Z. Chen L. Zhu, A. Raman, and S. Fan, “Ultrahigh Performance Radiative Cooling,” Society of Engineering Science (53rdAnnual Technical Meeting), College Park, 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,” 8th US-Japan Joint Seminar on Nanoscale Transport Phenomena, Santa Cruz, CA, July 2014 (Invited poster presentation).

5.    Z. Chen and C. Dames, “An anisotropic model for the minimum thermal conductivity,” ASME International Mechanical Engineering Congress & Exposition (IMECE), San Diego, CA, November 2013.

4.    Z. Chen, C. Wong, S. Lubner, S. Yee, J. Miller, C. Hardin, A. Fong, J. Garay, and C. Dames, “Experimental demonstration of ballistic thermal rectification using a phonon-photon analogy,” ASME Summer Heat Transfer Conference, Minneapolis, MN, July 2013.

3.    Z. Chen and C. Dames, “An anisotropic Debye model for the thermal boundary conductance,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Denver, CO, November 2011.

2.    Z. Chen and C. Dames, “An Anisotropic Debye Model for Thermal Contact Resistance,” MRS Fall Meeting, Boston, MA, November 2010 (Poster).

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.

会议论文 Conference Proceedings

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



科研项目

7. 基于玻尔兹曼方程的“声子平均自由程谱”测试技术,自然基金面上项目,2024年-2027年,主持

6. 一种基于辐射制冷技术的空气冷却装置, 珈伟创投有限公司(技术许可), 2021 至 2026, 主持

5. XXX,XXX横向项目,2019-2020,主持

4. 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,主持

3. 高科技热界面材料基础研究,科技部重点研发项目,2017-2021,参与

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,主持

1. 中组部国家级人才引进计划,2016-2021,主持


专利

10. 一种基于电桥与数据采集卡的自动化3ω测试系统及方法,发明专利,专利号:ZL202210942938.X,授权公告日:2023.08.01

9. 一种3ω试验台及其测试方法,发明专利,专利号:ZL202111023480.X,授权公告日:2023.04.18

8. 一种测试多层薄膜结构热物理性质的无损电测方法,发明专利,专利号:ZL202110868843.3,授权公告日:2022.12.09

7. 一种可同时从太阳获取热源和从宇宙深空获取冷源的装置,发明专利,专利号:ZL202110668964.3,授权公告日:2022.09.06

6. 利用电阻热噪声电压测量电阻元件温度的系统和方法,发明专利,专利号:ZL202110792317.3,授权公告日:2022.09.05

5. 一种辐射制冷材料、制备方法及辐射制冷板材,发明专利,专利号:ZL202110862864.4,授权公告日:2022.07.22

4. 桥式热整流器,发明专利,专利号:ZL202110409875.7,授权公告日:2022.06.17

3. 一种基于辐射制冷技术的空气冷却装置,实用新型专利,专利号:ZL201920615988.0,授权公告日:2020.02.18 授权给珈伟创投有限公司进行锂电池存储仓的无源热管理(100万))

2.    Z. Chen, L. Zhu, A. Raman, E. Goldstein, and S. Fan, Ultrahigh-performance Radiative Cooler, U. S. Patent (non-provisional filed July 17, 2017; application #: US15/651,595).

1.    W. Li, Y. Shi, Z. Chen, and S. Fan, APPARATUSES AND METHODS INVOLVING THERMALLY TUNED COMPOSITE MATERIAL, International Patent (S18-067 PCT/US2019/025005 (STFD.393PCT)).


陈震 微尺度传热,辐射制冷,芯片和多层薄膜热测试
Tel:
Email:zhenchen@seu.edu.cn
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Personal Introduction

陈震,东南大学青年首席教授,中央组织部人才计划青年项目(2016年)


Website: https://sites.google.com/site/zchen0203/

ORCID: https://orcid.org/0000-0002-5422-8807

Google Scholar: https://scholar.google.com/citations?user=qKZKCIgAAAAJ


2014年于加州大学伯克利分校机械工程系获博士学位,后于斯坦福大学应用物理系Ginzton实验室从事博士后研究。研究专长为通过对光子、声子、电子、分子等基本能量载子的热输运进行调控,解决芯片散热、新能源和淡水等工程问题。多次受邀主持美国机械工程师协会、中国工程热物理年会等分会场会议,并作邀请报告;出版英文专著一部(World Scientific Publishing Co. 2018);以第一或通讯作者在JouleNature Communications等权威期刊发表原创性文章,其中包括2篇被列为前1%的高被引论文,SCI他引近4000次(Google Scholar)。


陈震教授于2016年和2018年底分别发表在Nature CommunicationsJoule上的关于利用宇宙超低温背景散热的论文引发了全球新一轮的绿色能源热,被全球多个媒体报道,包括英国的New Scientists,德国的Welt Der Physik,美国的Science Daily,世界顶尖学术杂志Cell Press以及中国知网,雅虎(Yahoo)科技频道和商业频道等。目前与珈伟创投有限公司合作将该技术应用于锂电池存储仓的无源热管理。


部分课题组成员毕业去向:

1、陈恒锐(2022硕):新加坡国立大学(博士);

2、陈子杰(2022硕):TP-Link深圳;

3、顾中天(2023硕):University of Notre Dame (博士);

4、潘立(2023硕):TP-Link南京;

5、董铭豪(2023博):香港大学(博士后);

6、李涛(博士在读):加州大学伯克利分校(博士联培)。

Educational Background

英文专著 Invited Books

1.   Z. Chen and 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 Refereed Journal Publications

Overall citation is over 3,000 according to Google Scholar (http://scholar.google.com/citations?user=qKZKCIgAAAAJ&hl=en)

23. B. Jiang, T. Li, and Z. Chen, “Anisotropic Klemens model for the thermal conductivity tensor and its size effect,” International Journal of Heat and Mass Transfer 226, 125474 (2024).

22. Z. Zhang, X. Zhao, and Z. Chen, “Energy scavenging from the diurnal cycle with a temperature-doubler circuit and a self-adaptive photonic design,” Nanophotonics 13(5), 687-699 (2024).

21. T. Li, and Z. Chen, “A Scattering Matrix Formalism to Model Periodic Heat Diffusion in Stratified Solid Media,” Journal of Applied Physics 132, 125103 (2022). (highlighted as an Editor’s Pick)

20. M. Dong, L. Zhu, S. Fan, and Z. Chen, Concentrated radiative cooling and its constraint from reciprocity, Optics Express 30, 275-285 (2022).          (highlighted as an Editor's Pick)

19. Z. Zhang, K. Chen, S. Fan, and Z. Chen, “Shockley-Queisser analysis of the temperature-efficiency correlation of solar cells in the presence of non-radiative heat transfer,” Optics Express 29, 27554-27561 (2021).

      Erratum: There is a typographical error in the published verison of Fig. 2.  The correct title of the x-axis of Fig. 2c-d is: Effective Absorptivity in regime II.

18. M. Westwood, X. Zhao, Z. Chen (co-corresponding author) and C. Dames, “4-fold enhancement in energy scavenging from fluctuating thermal resources using a temperature-doubler circuit,” Joule 5, 2223-2240 (2021).

17. L. Li, L. Zhang, L. Zhang, Y. Zhong, Evelyn N. Wang, Z. Chen (co-corresponding author),and L. Guo, “Sub-Picosecond Optical Response of Metals Due to Non-Thermalized Electron Dynamics”, ES Energy & Environment 11, 19-27 (2021).

16. W. Li, M. Dong, L. Fan, J. J. John, Z. Chen, and S. Fan, “Nighttime Radiative Cooling for Water Harvesting from Solar Panels,” ACS Photonics 8, 269–275 (2021).

15. N. Chen, T. Li, Y. Wang, L. Pan, W. Bao, and Z. ChenGeneralized “Slope Method” of the 3ω Analysis to Measure the Thermal Conductivity and Heat Capacity of Solids: Frequency- vs. Current-sweepES Energy & Environment10, 13-21 (2020).    

14. M. Dong, Z. Zhang, Y. Shi, X. Zhao, S. Fan, and Z. ChenFundamental Limits of the Dew-harvesting Technology,Nanoscale and Microscale Thermophysical Engineering 24(1), 43-52 (2020).               (selected as cover image)

13. M. Dong, N. Chen, X. Zhao, S. Fan, and Z. Chen, “Nighttime Radiative Cooling in Hot and Humid Climates,” Optics Express27, 31587-31598 (2019).

12. Z. Chen, L. Zhu, W. Li, and S. Fan, “Simultaneously and Synergistically Harvest Energy from the Sun and Outer Space,” Joule 3, 101-110 (2019).

11. W. Li, Y. Shi, Z. Chen, and S. Fan, “Photonic thermal management of coloured objects,” Nature Communications 9, 4240 (2018).

10. 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 7, 5362 (2017).

9.  J. Kou, Z. Jurado, Z. Chen, S. Fan, and A. Minnich, “Daytime Radiative Cooling Using Infrared Black Bodies,” ACS Photonics 4(3), 626 (2017).

8.   Z. Chen, L. Zhu, A. Raman, and S. Fan, “Radiative cooling to deep subfreezing temperatures through a 24-hour day-night cycle,” Nature Communications 7, 13729 (2016).

7.   Z. Chen (co-corresponding author) and C. Dames, “An anisotropic model for the minimum thermal conductivity,” Applied Physics Letters 107, 193104 (2015).

6.    Z. Chen, Z. Wei, Y. Chen, and C. Dames, Anisotropic Debye model for the thermal boundary conductance, Physical Review B 87, 125426 (2013).

5.    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 12, 5470 (2012).

4.    W. Jang, Z. Chen (co-first author), W. Bao, C. N. Lau, and C. Dames, Thickness-dependent thermal conductivity of encased graphene and ultrathin graphite, Nano Letters 10, 3909 (2010).

3.    Z. Chen, W. Jang, W. Bao, C. N. Lau, and C. Dames, Thermal contact resistance between graphene and silicon dioxide, Applied Physics Letters 95, 161910 (2009).

2.    W. Bao, F. Miao, Z. Chen, H. Zhang, W. Jang, C. Dames, and C. N. Lau, Controlled ripple texturing of suspended graphene and ultrathin graphite membranes, Nature Nanotechnology 4, 562 (2009).

1.    Z. Chen, J. Yang, P. Zhuang, M. Chen, J. Zhu, and Y. Chen, “Thermal conductivity measurement of InGaAs/InGaAsP superlattice thin films,” Chinese Science Bulletin (in English) 51, 2931 (2006).

  

会议报告 Conference Presentations

中文报告

【3】 陈震:导热与辐射:声子与光子热输运的对比与类比(特邀报告), 中国工程热物理学会传热传质学术会议暨国家自然基金项目进展交流 会(热传导分会场), 武汉(线上), 2022年12月

【2】陈震:热辐射的纳米光子学调控(特邀报告), 第一届中国超材料大会(热学超材料分会场), 西安 , 2019年11月

【1】陈震:辐射制冷(特邀报告), 中国工程热物理学会传热传质学术会议暨国家自然基金项目进展交流 会(热传导分会场), 青岛, 2019年10月


英文报告

24Z. Chen, “Constraints of Onsager reciprocal relations on modeling thermal transport,” The International Symposium on Multiscale Simulations of Thermophysics, Shenzhen, China, June 2023 (Keynote).

23. Z. Zhang, X. Zhao, and Z. Chen, “Fundamental Limits of the Thermal H-Bridge under  Realistic Multi-Mode Solar-Thermal Boundary Condition,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2022.

22. T. Li and Z. Chen, “Modeling the High-frequency Periodic Heating of a Line-heater-on-substrate Structure: towards a Ballistic 3ω Method”, ASME Summer Heat Transfer Conference, Virtual, June 2022.

21. H. Chen and Z. Chen, “Modeling Anisotropic Thermal Transport in Black-phosphorus-like Materials,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2021.

20. T. Li and Z. Chen, “A Scattering Matrix Scheme to Model the Periodic Heating Problem in Layered Structures,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2021.

19. Z. Zhang, K. Chen, S. Fan, and Z. Chen, “Shockley-Queisser Analysis of the Temperature-Efficiency Correlation of Solar Cells in the Presence of Non-Radiative Heat Transfer,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2021.

18. N. Chen, T. Li, Y. Wang, L. Pan, W. Bao, and Z. Chen, “Generalized “Slope Method” of the 3ω Analysis to Measure k and C of Solids: Frequency- vs. Current-sweep”, ASME Summer Heat Transfer Conference, Virtual, June 2021.

17. M. Dong, L. Zhu, S. Fan, and Z. Chen, “Concentrated Radiative Cooling and Its Constraint from Reciprocity”, ASME Summer Heat Transfer Conference, Virtual, June 2021.

16. M. Dong, Z. Zhang, Y. Shi, X. Zhao, S. Fan, and Z. Chen, “Fundamental Limits of the Dew-Harvesting Technology,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Virtual, November 2020.

15. Z. Chen, “Anisotropic and selective thermal transport,” International Conference on Thermodynamics and Thermal Metamaterials (ThermoMeta), Virtual, August 2020 (Invited).

14. Z. Chen, L. Zhu, W. Li, and S. Fan, “Simultaneously Harvest Energy from the Sun and Outer Space using the same Physical Area,” ASME Summer Heat Transfer Conference, Bellevue, WA, July 2019.

13. M. Dong and Z. Chen, “Radiative Cooling in Hot and Humid Areas,” 6thASME International Conference of Micro/Nanoscale Heat and Mass Transfer (MNHMT), Dalian, China, July 2019.

12. Z. Chen, L. Zhu, W. Li, and S. Fan, “Simultaneously and Synergistically Harvest Energy from the Sun and Outer Space,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Pittsburgh, PA, November 2018.

11.  Z. Chen and S. Fan, “Ultrahigh Performance Radiative Cooling: towards large-scale deployment,” Global Climate & Energy Project Research Symposium 2017, Stanford, CA, November 2017 (Poster).

10.  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).

9.    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.

8.    Z. Chen L. Zhu, A. Raman, and S. Fan, “Ultrahigh Performance Radiative Cooling,” Global Climate & Energy Project Research Symposium 2016, Stanford, CA, November 2016 (Poster).

7.    Z. Chen L. Zhu, A. Raman, and S. Fan, “Ultrahigh Performance Radiative Cooling,” Society of Engineering Science (53rdAnnual Technical Meeting), College Park, 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,” 8th US-Japan Joint Seminar on Nanoscale Transport Phenomena, Santa Cruz, CA, July 2014 (Invited poster presentation).

5.    Z. Chen and C. Dames, “An anisotropic model for the minimum thermal conductivity,” ASME International Mechanical Engineering Congress & Exposition (IMECE), San Diego, CA, November 2013.

4.    Z. Chen, C. Wong, S. Lubner, S. Yee, J. Miller, C. Hardin, A. Fong, J. Garay, and C. Dames, “Experimental demonstration of ballistic thermal rectification using a phonon-photon analogy,” ASME Summer Heat Transfer Conference, Minneapolis, MN, July 2013.

3.    Z. Chen and C. Dames, “An anisotropic Debye model for the thermal boundary conductance,” ASME International Mechanical Engineering Congress & Exposition (IMECE), Denver, CO, November 2011.

2.    Z. Chen and C. Dames, “An Anisotropic Debye Model for Thermal Contact Resistance,” MRS Fall Meeting, Boston, MA, November 2010 (Poster).

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.

会议论文 Conference Proceedings

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



Professional Experience

1. Committee member of K-9 (Heat Transfer Division of ASME)

2. 江苏省工学 I 类研究生教指委委员

3. 江苏省真空协会会员

Teaching

7. 基于玻尔兹曼方程的“声子平均自由程谱”测试技术,自然基金面上项目,2024年-2027年,主持

6. 一种基于辐射制冷技术的空气冷却装置, 珈伟创投有限公司(技术许可), 2021 至 2026, 主持

5. XXX,XXX横向项目,2019-2020,主持

4. 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,主持

3. 高科技热界面材料基础研究,科技部重点研发项目,2017-2021,参与

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,主持

1. 中组部国家级人才引进计划,2016-2021,主持


Research Interests

10. 一种基于电桥与数据采集卡的自动化3ω测试系统及方法,发明专利,专利号:ZL202210942938.X,授权公告日:2023.08.01

9. 一种3ω试验台及其测试方法,发明专利,专利号:ZL202111023480.X,授权公告日:2023.04.18

8. 一种测试多层薄膜结构热物理性质的无损电测方法,发明专利,专利号:ZL202110868843.3,授权公告日:2022.12.09

7. 一种可同时从太阳获取热源和从宇宙深空获取冷源的装置,发明专利,专利号:ZL202110668964.3,授权公告日:2022.09.06

6. 利用电阻热噪声电压测量电阻元件温度的系统和方法,发明专利,专利号:ZL202110792317.3,授权公告日:2022.09.05

5. 一种辐射制冷材料、制备方法及辐射制冷板材,发明专利,专利号:ZL202110862864.4,授权公告日:2022.07.22

4. 桥式热整流器,发明专利,专利号:ZL202110409875.7,授权公告日:2022.06.17

3. 一种基于辐射制冷技术的空气冷却装置,实用新型专利,专利号:ZL201920615988.0,授权公告日:2020.02.18 授权给珈伟创投有限公司进行锂电池存储仓的无源热管理(100万))

2.    Z. Chen, L. Zhu, A. Raman, E. Goldstein, and S. Fan, Ultrahigh-performance Radiative Cooler, U. S. Patent (non-provisional filed July 17, 2017; application #: US15/651,595).

1.    W. Li, Y. Shi, Z. Chen, and S. Fan, APPARATUSES AND METHODS INVOLVING THERMALLY TUNED COMPOSITE MATERIAL, International Patent (S18-067 PCT/US2019/025005 (STFD.393PCT)).


Refereed Journals
Other Professional Activities
Selected Publications
Research Projects
Patents and Applications