刘晶 副教授
个人介绍:
刘晶,工学博士,副教授,深圳市海外高层次“孔雀计划”人才(C类),2017年博士毕业于爱荷华州立大学工程热物理专业,2017年8月进入日本东京大学。2019年回国加入深圳技术大学。主要研究领域包括:基于拉曼光谱的芯片热管理,器件(如三代半导体HEMT)热管理材料设计与传热控制、锂离子电池仿真与热管理技术。作为PI主持广东省基础与应用基础研究基金区域联合基金项目1项,深圳技术大学高端人才研究项目1项。在国际学术期刊发表SCI论文篇21篇(封面文章1篇)。获得2016年获得爱荷华州立大学“Research Excellence Award”(top 10%)。Journal of Thermal Science,Nanomaterials,International Journal of Thermophysics,Heat Transfer Research等知名学术期刊审稿人。
教育背景:
2013.01-2017.05 爱荷华州立大学,工程热物理专业,博士,导师:Xinwei Wang
2008.09-2012.06 东南大学,热能与动力工程专业,学士
工作经历:
2022.12-至今 深圳技术大学,新材料与新能源学院,副教授
2019.03-2022.11 深圳技术大学,新材料与新能源学院,助理教授
2017.08-2019.03 东京大学,机械学院,博士后,导师:Junichiro Shiomi
主要荣誉:
1. 2019年入选深圳市海外高层次人才
2. 2017年取得日语能力等级考试2级合格证书
3. 2016年获得爱荷华州立大学“Research Excellence Award”
研究方向:
1. 基于拉曼光谱的芯片热管理
2. 器件热管理材料设计与传热控制
3. 锂离子电池仿真与热管理技术
科研项目:
1. 国家自然科学基金青年科学基金项目2023.01-2025.12,30万,主持
2. 广东省基础与应用基础研究基金区域联合基金项目2020.10-2023.9,10万,主持
3. 深圳技术大学高端人才研究经费,2020.01-2022.12,270万,主持
4. 深圳技术大学教学改革研究项目,2022.05-2024.04,5万,主持
5. 广东省普通高校特色创新项目,2020.01-2021.12,10万,参与
6. 深圳市基础研究专项(自然科学基金)重点项目,2020.11-2023.11,250万,参与
7. 深圳技术大学产业化研发项目,2022.06-2024.06,参与
8. 深圳技术大学校企合作研发项目,2019.06-2021.05, 31.5万,参与
代表论文:
1. J. Yu, J. Wu, H. Yang*, P. Li, J. Liu, M. Wang, J. Pang, C. Li, C. Yang, K. Xu, 2022, “Extremely sensitive SERS sensors based on a Femtosecond Laser Fabricated Superhydrophobic/-philic Microporous platform”, ACS Applied Materials & Interfaces (Accepted).
2. J. Liu, P. Li, S. Xu, Y. Xie, Q. Wang, L. Ma*, 2022, “Temperature Dependence of Thermal Conductivity of Giant-Scale Supported Monolayer Graphene”, Nanomaterials, 12, 2799.
3. J. Zhou, S. Xu*, J. Liu, 2022, “Review of Photothermal Technique for Thermal Measurement of Micro-/Nanomaterials”, Nanomaterials, 12, 1884.
4. Wangda Qu, Pengyu Hu, Jing Liu, Hong Jin, Keliang Wang, 2022, “Lignin-based carbon fiber: A renewable and low-cost substitute towards featured fiber-shaped pseudocapacitor electrodes”, Journal of Cleaner Production, 343, 131030.
5. Jing Liu#, Meng Han#, Ridong Wang#, Shen Xu, and Xinwei Wang, 2022, “Photothermal phenomenon: Extended ideas for thermophysical properties characterization”, Journal of Applied Physics,131, 065107(As co-first author).
6. Jing Liu, Pei Li and Hongsheng Zheng, 2021, “Review on Techniques for Thermal Characterization of Graphene and Related 2D materials”, Nanomaterials,11,2787.
7. Jing Liu, Hongsheng Zheng, Pengyu Hu, Yangsu Xie, and Wangda Qu, 2021, “Uncovering the Structural Defect Effect on Thermal Transport in Carbon Fiber Mat by Thermal Reffusivity Dependence on Temperature”, 42,128.
8. S. Xu#, J. Liu#, X. Wang, 2020, “Thermal Conductivity Enhancement of Polymers via Structure Tailoring," invited review, Journal of Enhanced Heat Transfer, 27, 463-489.(As co-first author)
9. J. Liu, S.H. Ju, N. Nishiyama, J. Shiomi, 2019,“Anomalously low thermal conductivity in superhard cubic Si3N4”, Physical Review B, 100, 064303.
10. M. Han#, J. Liu#, Y. Xie, and X. Wang, 2018, “Sub-µm c-axis Structural Domain Size of Graphene Paper Uncovered by Low-momentum Phonon Scattering”, Carbon, 126, 532-543. (As co-first author)
11. T. Wang#, J. Liu#, B. Xu, R. Wang, et al., 2017, "Identification of Crystalline Orientation of Black Phosphorus by Optothermal Raman Spectroscopy," ChemPhysChem, 18, 1-8. (cover page of ChemPhysChem)
12. J. Liu, W. Qu, Y. Xie, et. al, 2017, "Thermal Conductivity and Annealing Effect on Structure of Lignin-based Microscale Carbon Fibers," Carbon, 121, 35-47.
13. P. Yuan#, J. Liu#, R. Wang, and X. Wang, 2017, "Hot Carrier Diffusion Coefficient of Sub-10 nm Virgin MoS2: Uncovered by Non-Contact Optical Probing," Nanoscale,9,6808-6820. (As co-first author)
14. J. Liu, T. Wang, S. Xu, et. al, 2016, “Thermal Conductivity of Giant Mono to Few-layered CVD Graphene Supported on Organic Substrate”, Nanoscale, 8, 10298-10309.
15. J. Liu, Z. Xu, Z. Cheng, S. Xu, and X. Wang, 2015, “Thermal Conductivity of Ultra-High Molecular Weight Polyethylene Crystal: Defect-effect Uncovered by 0 K limit Phonon Diffusion”, ACS Applied Materials and Interfaces,7, 27279-27288.
16. J. Liu, X. Wang, 2015, “Characterization of Thermal Transport in One-Dimensional Microstructures Using Johnson Noise Electro-Thermal Technique,” Applied Physics A, 119, 871-879.
17. Y. Xie, B. Zhu, J. Liu, Z. Xu, X. Wang, 2017 "Thermal Reffusivity: Uncovering Phonon Behavior, Structural Defects, and Domain Size," Frontiers in Energy,1,143-157.
18. M. Han, P. Yuan, J. Liu, S. Si, et al., 2017,“Interface Energy Coupling between β-tungsten Nanofilm and Few-layered Graphene”, Scientific Reports,7,12213.
19. W. Qu, J. Liu, Y. Xue, X. Wang and X. Bai, 2017, “Potential of Producing Carbon Fiber from Biorefinery Corn Stover Lignin with High Ah Content,” Journal of Applied Polymer Science, 134, 45736.
20. B. Zhu, J. Liu, T. Wang, M. Han, S. Vallopilly, S. Xu, and X. Wang, 2017 "Novel Polyethylene Fibers of Very High Thermal Conductivity Enabled by Amorphous Restructuring," ACS Omega, 2, 3931−3944.
21. T. Wang, R. Wang, P. Yuan, S. Xu, J. Liu, and X. Wang, 2017, "Interfacial Thermal Conductance between Mechanically Exfoliated Black Phosphorus and SiOx: Effect of Thickness and Temperature," Advanced Materials Interfaces, 1700233.
22. M. Kadir, X. Wang, B. Zhu, J. Liu, D. Harland, and C. Popescu, 2017, "The Structure of the “Amorphous” Matrix of Keratins," Journal of Structural Biology, 198, 116-123.
23. C. Deng, Y. Sun, L. Pan, T. Wang, Y. Xie, J. Liu, B. Zhu and X. Wang, 2016, "Thermal Diffusivity of Single Carbon Nanocoil: Uncovering the Correlation with Temperature and Domain Size," ACS Nano, 10, 9710-9719.
24. P. Yuan, C. Li, S. Xu, J. Liu, X. Wang, 2016, "Interfacial Thermal Conductance between Few to Tens of layered-MoS2and c-Si: Effect of MoS2," Acta Materialia, 122, 152-165.
联系方式:
电子邮箱:liujing@sztu.edu.cn
