Assoc. Prof. Dr Jing Li | Energy | Best Researcher Award

Professor at Chongqing University, China

Dr. Jing Li is an Associate Professor at the School of Energy and Power Engineering, specializing in micro and nanoscale heat transfer, phase change energy storage, and thermal management materials. She earned her Ph.D. in Power Engineering and Engineering Thermophysics from the University of Science and Technology Beijing in 2015. With over 50 research publications, including 25 indexed in SCI, she has made significant contributions to the field. She has led and participated in numerous national and provincial research projects, including those funded by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. Her research focuses on developing advanced thermal management solutions using phase change materials and nanomaterials. Dr. Li’s work has broad applications in energy efficiency and sustainability. With a strong track record in securing research funding and publishing high-impact studies, she is a key figure in advancing energy storage and heat transfer technologies.

Professional Profile 

Scopus Profile

Education

Professional Experience

Dr. Jing Li is an Associate Professor at the School of Energy and Power Engineering, Chongqing University. She earned her Ph.D. in Power Engineering and Engineering Thermophysics from the University of Science and Technology Beijing in 2015. With extensive experience in thermal energy research, she has been actively involved in multiple national and provincial research projects, including those funded by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. As a principal investigator and key research personnel, she has contributed to advancements in heat transfer, phase change energy storage, and nanoscale thermophysics. Dr. Li has also collaborated with industrial and academic institutions on energy-efficient technologies, furthering the applications of her research in practical engineering fields. Her dedication to innovative heat transfer solutions and her leadership in research projects have established her as a respected expert in energy and thermal physics.

Research Interest

Dr. Jing Li’s research primarily focuses on micro- and nanoscale heat transfer, phase change heat storage, and energy cascade utilization. Her work explores advanced heat storage materials, thermophysical properties, and near-field radiation effects, contributing to the development of high-efficiency thermal management systems. She has extensively studied multiphase flow heat transfer and the application of nanomaterials in enhancing thermal conductivity. Her recent research includes molecular dynamics simulations of composite phase change materials, graphene-enhanced thermal properties, and experimental studies of thermal diodes. Through her interdisciplinary approach, she bridges fundamental physics with practical applications in industrial waste heat recovery, electronics cooling, and renewable energy systems. Dr. Li’s contributions to energy-efficient materials and next-generation thermal management technologies provide valuable insights for sustainable energy solutions, making her research highly relevant to modern engineering and environmental challenges.

Award and Honor

Dr. Jing Li has received multiple awards and honors in recognition of her contributions to energy research and heat transfer studies. She has been awarded research grants from prestigious institutions such as the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. Her work on phase change materials and nanoscale heat transfer has been recognized in leading scientific journals, where she has published over 50 research papers, many indexed in SCI and EI. Additionally, she has been acknowledged for her outstanding research contributions through provincial and national talent programs, including the Chongqing Talent Plan. Dr. Li’s expertise in thermal energy storage has earned her invitations to international conferences as a keynote speaker and panelist. Her achievements not only highlight her excellence in academic research but also emphasize her impact on advancing energy-efficient technologies for industrial and environmental applications.

Conclusion

Publications Top Noted

• Title: Molecular dynamics simulation of thermal properties in composite phase change materials based on functionalized graphene and polyethylene glycol
  Authors: Yu Mao, Jing Li*, Xu Yang, Keai Tao, Kuan Sun, Shanshan Chen, Yujie Zheng
  Year: 2024
  Citation: Journal of Energy Storage, 94:112104

• Title: Molecular dynamics simulation of thermal properties of modified graphene/n-octadecane composite phase change material
  Authors: Li J*, Mao Y, Yang X, et al.
  Year: 2024
  Citation: Journal of Physics: Conference Series, 2749(1):012008

• Title: A polyurethane solid-solid composite phase change material based on modified graphene oxide for efficient thermal management
  Authors: Yang X, Liao Y N, Li J*, et al.
  Year: 2024
  Citation: Journal of Physics: Conference Series, 2749(1):012007

• Title: Experimental study of single-phase change material thermal diode based on calcium chloride hexahydrate
  Authors: Yang Xu, Li Jing, Mao Yu, Tao Ke-Ai, Sun Kuan, Chen Shan-Shan, Zhou Yong-Li, Zheng Yu-Jie
  Year: 2024
  Citation: Acta Phys. Sin., 73(5): 058301

• Title: Near-field radiative heat transfer between successive nanowires and its effects on thermal conductivity of mesoporous composites
  Authors: Jing Li*, Yanhui Feng, Xinxin Zhang, Xinming Zhang
  Year: 2016
  Citation: Applied Thermal Engineering, 93: 978-987

• Title: Shape-stable phase change composites based on carbonized waste pomelo peel for low-grade thermal energy storage
  Authors: Shaowei Li, Jing Li*, Yang Geng, Yanning Liao, Shanshan Chen, Kuan Sun, Meng Li
  Year: 2022
  Citation: Journal of Energy Storage, 47: 103556/1-103556/10

• Title: Theoretical and experimental research of thermal conductivity of silver (Ag) nanowires in mesoporous substrate
  Authors: Jing Li*, Yanhui Feng, Xinxin Zhang, Ge Wang
  Year: 2018
  Citation: International Journal of Heat & Mass Transfer, 121: 547-554

• Title: Super-elastic and shape-stable solid-solid phase change materials for thermal management of electronics
  Authors: Yanning Liao, Jing Li*, Shaowei Li, Xu Yang
  Year: 2022
  Citation: Journal of Energy Storage, 52: 104751-104751

• Title: Dual-functional polyethylene glycol/graphene aerogel phase change composites with ultrahigh loading for thermal energy storage
  Authors: Shaowei Li, Jing Li*, Yanning Liao, Shanshan Chen, Yujie Zheng, Meng Li, Kuan Sun
  Year: 2022
  Citation: Journal of Energy Storage, 54: 105337-105337

• Title: Interfacial thermal resistance in mesoporous composites and its thermal conductivity
  Authors: Jing Li*, Yanhui Feng, Xinxin Zhang, Ge Wang
  Year: 2016
  Citation: CIESC Journal, 67(S1): 166-173

• Title: Preparation and thermophysical properties of graphene nanoplatelets-octadecane phase change composite materials
  Authors: Cai Di, Jing Li*, Jiao Nai Xun
  Year: 2019
  Citation: Acta Physica Sinica, 68(10): 100502/1-100502/9

• Title: Near-field Radiative Heat Transfer across a Pore and Its Effects on Thermal Conductivity of Mesoporous Silica
  Authors: Jing Li, Yanhui Feng*, Xinxin Zhang, Congliang Huang, Ge Wang
  Year: 2015
  Citation: Physica B, 456(1):237-243

• Title: Study of Near-field Radiative Heat Transfer in Mesoporous Alumina
  Authors: Jing Li, Yanhui Feng*, Xinin Zhang, Congliang Huang, Ge Wang
  Year: 2015
  Citation: Chinese Physics B, 24(1): 14401-014401

• Title: Near-field radiation across a spherical pore in mesoporous silica
  Authors: Jing Li, Yanhui Feng*, Xinxin Zhang, Congliang Huang, Mu Yang
  Year: 2015
  Citation: Chinese Journal of Engineering, 37(8): 1063-1068

• Title: Thermal conductivities of metallic nanowires with considering surface and grain boundary scattering
  Authors: Jing Li, Feng Yan-Hui*, Zhang Xin-Xin et al.
  Year: 2013
  Citation: Acta Phys. Sin, 62(18): 186501

• Title: Numerical simulation of the flow and heat-transfer characteristics of an aligned external three-dimensional rectangular-finned tube bank
  Authors: Juwu Xu, Jing Li*, Yudong Ding, Qian Fu, Min Cheng, Qiang Liao
  Year: 2018
  Citation: Applied Thermal Engineering, 145:110-122