Assist. Prof. Dr. Abu Talha Aqueel Ahmed | Energy | Research Excellence Award

Dongguk University | South Korea

Assistant Prof. Dr. Abu Talha Aqueel Ahmed is a faculty member in the Division of Physics and Semiconductor Science at Dongguk University, Seoul, specializing in advanced materials for energy storage, electrocatalysis, and semiconductor applications. He holds a Ph.D. in physics with a focus on nanostructured functional materials, supported by prior degrees in the physical sciences that established his foundation in materials synthesis, characterization, and device applications. His professional experience includes leading research projects in nanomaterials engineering, mentoring student researchers, and contributing to collaborative initiatives spanning energy storage systems, hydrogen evolution reactions, and optoelectronic materials. Dr. Ahmed’s research centers on designing high-performance transition-metal chalcogenides, oxides, and carbon-based nanostructures, with significant contributions reflected in numerous peer-reviewed publications, including highly cited works on CuCo₂S₄ electrocatalysts, nanohoneycomb rGO foams, morphology-engineered oxides, and stabilized halide perovskites. His scholarly output exceeds several dozen publications in reputable journals, supported by substantial citation metrics that demonstrate the impact of his research. He has been honored with recognitions for research excellence and contributes to the scientific community through peer-review activities, editorial engagements, and participation in professional societies related to materials science, nanotechnology, and semiconductor physics. His work exemplifies innovation, leadership, and sustained commitment to advancing next-generation energy and semiconductor technologies.

Citation Metrics (Google Scholar)

2903

2000

1000

500

Citations

2,903

h-index

i10-index

Citations

h-index

i10-index

View Google Scholar Profile

Featured Publications

Self-assembled two-dimensional copper oxide nanosheet bundles as an efficient OER electrocatalyst for water splitting

– Journal of Materials Chemistry A, 2017

Nanoflake NiMoO₄ based smart supercapacitor for intelligent power balance monitoring

– Solar Energy Materials & Solar Cells, 2018

Biomass-derived ultrathin mesoporous graphitic carbon nanoflakes for high-performance supercapacitors

– Materials & Design, 2019

Self-Assembled Nanostructured CuCo₂O₄ for Electrochemical Energy Storage and OER

– Small, 2018

Nanoporous CuCo₂O₄ nanosheets for supercapacitors and water oxidation catalysis

– Applied Surface Science, 2019

Junhyuk Nam | Distributed Energy System | Best Researcher Award

Published on 27/10/202527/10/2025 by World Top Scientists

Mr. Junhyuk Nam | Distributed Energy System | Best Researcher Award

Junhyuk Nam | Soongsil University | South Korea

Mr. Junhyuk Nam is an emerging researcher in the field of electrical engineering, specializing in distribution system operations, voltage stability analysis, and the integration of distributed energy resources (DERs). His research expertise extends to virtual power plant (VPP) platform design, economic analysis, and data-driven power system studies utilizing advanced machine learning techniques such as logistic regression. With a growing publication record that includes multiple papers in high-impact international and domestic journals such as Energies, IEEE Access, and The Transactions of the Korean Institute of Electrical Engineers (KIEE), he has contributed valuable insights into the assessment of voltage margins, optimization of renewable energy integration, and the mitigation of grid challenges associated with electric vehicle (EV) charging and photovoltaic (PV) penetration. His collaborative research engagements with leading national institutions—including the Korea Institute of Energy Technology Evaluation and Planning, the Korea Energy Research Institute, and the Korea Electrotechnology Research Institute—reflect his interdisciplinary approach and commitment to advancing sustainable energy solutions. Mr. Nam’s work has earned several prestigious awards recognizing his excellence in academic research and contributions to the development of innovative strategies for enhancing power system reliability and efficiency. With a citation count indicating growing international recognition, his research continues to inform both academia and industry on practical pathways to achieving stable and economically viable smart grid systems. His technical proficiency in tools such as OpenDSS and Python further strengthens his ability to bridge theoretical modeling with real-world system applications. Through continued innovation and collaboration, Mr. Nam is poised to make a lasting impact on the global transition toward intelligent, data-driven, and resilient energy infrastructures.

Profiles: Scopus | ORCID

Featured Publications

1. J.-H. Nam, S.-J. Park, D.-I. Cho, Y.-J. Cho, and W.-S. Moon, “Assessing the Suitability of Distributed Energy Resources in Distribution Systems Based on the Voltage Margin: A Case Study of Jeju, South Korea,” IEEE Access, 2025.

2. J.-H. Nam, D.-I. Cho, Y.-J. Cho, and W.-S. Moon, “Determination of Voltage Margin Decision Boundaries via Logistic Regression for Distribution System Operations,” Energies, 2025.

Mr. Junhyuk Nam’s research advances the stability and efficiency of modern power systems through innovative analysis of distributed energy resources and voltage management. His work supports the global transition toward sustainable, data-driven smart grids, contributing to cleaner energy integration and enhanced grid reliability for future energy infrastructures.

Jing Li | Energy | Best Researcher Award

Published on 14/02/202514/02/2025 by World Top Scientists

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

Dr. Jing Li holds a Ph.D. in Power Engineering and Engineering Thermophysics from the University of Science and Technology Beijing, which she earned in 2015. Her doctoral research focused on advanced thermal management, energy storage, and nanoscale heat transfer, laying a strong foundation for her future contributions to these fields. Prior to that, she completed her Bachelor of Engineering (B.E.) in Thermal Energy and Power Engineering from the same university in 2008. During her undergraduate studies, she developed a keen interest in thermophysical properties and energy utilization, which later guided her research trajectory. Her academic journey reflects a consistent focus on energy systems, phase change materials, and micro/nanoscale heat transfer, equipping her with the expertise to lead innovative research projects in these domains. With a strong educational background from a prestigious institution, Dr. Li has built a career dedicated to advancing thermal energy storage and heat transfer technologies.

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

Dr. Jing Li is a highly accomplished researcher in the field of thermal energy storage and heat transfer. With a strong academic background, extensive research experience, and numerous high-impact publications, she has made significant contributions to advancing energy-efficient materials and thermal management systems. Her work on phase change materials, nanoscale heat transfer, and molecular dynamics simulations has provided valuable insights into next-generation energy technologies. Through leadership in research projects and active collaboration with industry, she continues to bridge the gap between fundamental science and practical applications. Her recognition through national and provincial awards further underscores her influence in the field. Dr. Li’s dedication to innovation, sustainability, and scientific excellence makes her a distinguished researcher and a valuable asset to the academic and engineering communities. Her work will continue to play a crucial role in addressing global energy challenges and developing advanced thermal management solutions.

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

Sergey Gandzha | Energy | Best Researcher Award

Published on 05/11/202405/11/2024 by World Top Scientists

Prof. Dr. Sergey Gandzha | Energy | Best Researcher Award

professor South Ural State University (National Research University) Russia

Sergey A. Gandzha is a Doctor of Technical Science and a Professor at South Ural State University (SUSU), Chelyabinsk, Russia. As a Corresponding Member of the Academy of Electrotechnical Sciences of the Russian Federation, he has made significant contributions to the fields of electromechanical systems and power engineering. He is known for his work in designing electric machines and apparatus, as well as in electric drive technology.

Profile

Google scholar

Education 🎓

Bachelor’s Degree in Electric Machines and Apparatus Design – Energy Faculty, South Ural State University (1973-1978)
Candidate of Technical Science – South Ural State University (1981-1984)
Doctor of Technical Science – South Ural State University (2007-2012)

Experience 💼

Professor Gandzha has held multiple academic and industrial roles. Since May 2022, he has served as a Professor at the Department of Electric Drive, Mechatronics, and Electromechanics at SUSU. Previously, he led the Department of Theoretical Fundamentals of Electrotechnology (2018-2022) and worked as an Assistant Professor (2001-2013) at SUSU. He also has industry experience, having led the design department at JSC “Electro Machine” (1999-2001).

Research Interests 🔍

His research focuses on small and medium-power electric drives, design of special electric machines, wind power systems, hybrid electric vehicle transmissions, and fuel cell-based energy storage. His doctoral dissertation titled “Brushless Electric Machines with Axial Magnetic Flux” explores advanced machine designs for industrial applications.

Awards 🏆

Professor Gandzha has received several prestigious awards, including:

Diploma for best publication in the International Scientific Journal Alternative Energy and Ecology for work in wind energy.
Winner of the International Award “Small Energy – Great Achievements” in the “Best Innovative Project” category in 2018.

Publications Top Notes:📚

Professor Gandzha has published over 100 scientific papers. Key publications include:

Starter Generator for Autonomous Power Sources – Bulletin of the South Ural State University, Series: Energy (2005), cited in several energy engineering articles.

Generator for Autonomous Power Sources – Bulletin of the South Ural State University, Series: Energy (2005), a reference work in alternative energy research.

Optimal Design of Electric Drives Based on Valve Electric Machines – Bulletin of the South Ural State University, Series: Energy (2009), widely cited for advancements in electric machine design.

Hamidou SANKARA | Energy | Best Paper Award

Published on 03/10/2024 by World Top Scientists

Mr. Hamidou SANKARA | Energy | Best Paper Award

Doctorant at INSA LYON/Université Joseph KI-ZERBO, Burkina Faso.

Hamidou Sankara is a dedicated doctoral student at Insa Lyon in France and Université Joseph KI-ZERBO in Burkina Faso, specializing in thermal studies of eco-materials for construction. He holds both a Bachelor’s and a Master’s degree in Applied Physics and has experience teaching Physics, Chemistry, and Mathematics. Proficient in French, English, and Spanish, he combines strong technical skills in various software tools with a passion for renewable energy, demonstrated through his personal blog on the subject. His academic journey is marked by a commitment to sustainable development and a desire to contribute meaningfully to environmental issues in Burkina Faso.

Publication Profile:

ORCID Profile

Strengths for the Award:

Academic Excellence: Hamidou has a solid educational background, holding both a Bachelor’s and a Master’s degree in Applied Physics from Université Joseph KI-ZERBO. His current doctoral research at Insa Lyon emphasizes significant contributions to the field of energy, particularly renewable energies.
Research Focus: His work on the thermal studies of eco-materials for construction in Burkina Faso demonstrates a commitment to sustainable development and addresses critical environmental issues.
Teaching Experience: With experience teaching Physics, Chemistry, and Mathematics, he has honed his ability to communicate complex concepts effectively. This experience enriches his research perspective by incorporating educational methodologies.
Multilingual Skills: Proficiency in multiple languages (French, English, and Spanish) enhances his capability to collaborate internationally and disseminate research findings to diverse audiences.
Technical Proficiency: Mastery of various software tools (Excel, Word, PowerPoint, Zotero, Abaqus, Trnsys, LaTeX, ImageJ) equips him with the necessary skills for effective data analysis and research presentation.

Areas for Improvement:

Networking and Collaboration: While Hamidou has attended conferences in Africa, expanding his network in Europe and globally could open up new collaborative opportunities and funding sources for his research.
Publication Record: To enhance his academic profile, focusing on publishing research findings in reputable journals would be beneficial. This can solidify his reputation in the academic community and increase visibility for his work.
Project Management Skills: Developing project management skills could help in overseeing research projects more efficiently, ensuring timely completion and adherence to research objectives.

Education:

Hamidou Sankara’s educational journey showcases his dedication to the field of physics and energy. He obtained his Baccalaureate in Series C from Lycée Moderne 1 de Divo in Côte d’Ivoire in 2009. Following this, he pursued a Bachelor’s degree in Applied Physics at Université Joseph KI-ZERBO in Burkina Faso, graduating in 2013. He continued his studies at the same institution, earning a Master’s degree in Applied Physics with a specialization in energy in 2018. Currently, he is in the third year of his doctoral program, working on thermal studies of eco-materials for construction as part of a co-tutelle agreement between Insa Lyon in France and Université Joseph KI-ZERBO. His academic background reflects a strong foundation in applied physics, with a specific focus on renewable energy and sustainability.

Experience:

Hamidou Sankara has gained valuable teaching experience in the fields of Physics, Chemistry, and Mathematics over several years in Burkina Faso. From September 2014 to June 2016, he worked as a part-time instructor at Lycée Privé Dimdolobson and Collège Privé Leadersip, where he taught Physics and Chemistry at Leadersip Academy and both subjects at Dimdolobson High School. He continued his teaching career from September 2016 to June 2019 at Lycée Privé Espoir du Faso, where he instructed students in Physics, Chemistry, and Mathematics. This extensive teaching background has not only enhanced his communication skills but also deepened his understanding of these scientific disciplines, enriching his perspective as a researcher in renewable energy.

Research Focus:

Hamidou Sankara’s research focuses on the thermal studies of eco-materials for construction in Burkina Faso, aiming to enhance sustainable building practices. His work involves both experimental measurements and simulations to analyze the thermal performance of these materials. By investigating locally sourced eco-materials, he addresses pressing environmental challenges while promoting the use of renewable resources in construction. This research not only contributes to the academic understanding of thermal dynamics in eco-materials but also supports sustainable development initiatives in Burkina Faso, aligning with global efforts to reduce carbon footprints and promote energy efficiency in the building sector.

Awards and Honors:

Hamidou Sankara has received several awards and honors that highlight his academic and professional achievements. He has been recognized for his outstanding performance in his studies, including scholarships during his Bachelor’s and Master’s programs at Université Joseph KI-ZERBO. His dedication to research in renewable energy has also earned him accolades at various scientific conferences across Africa, where he presented his work on eco-materials for construction. Additionally, his teaching contributions at private colleges in Burkina Faso have been acknowledged, showcasing his commitment to education and knowledge dissemination. These honors reflect his passion for advancing sustainable practices and his potential as a leading researcher in the field.

Publication Top Notes:

Development of Foam Composites from Flax Gum-Filled Epoxy Resin
- Authors: [You may need to look up the specific authors from the publication directly, as I don’t have access to databases to retrieve that information.]
- Year: 2024
- Citation:
  - APA: Author(s). (2024). Development of Foam Composites from Flax Gum-Filled Epoxy Resin. Preprints. DOI: 10.20944/preprints202406.0089.v1
Computational Model of Effective Thermal Conductivity of Green Insulating Fibrous Media
- Authors: [You may need to check the specific authors in the journal article.]
- Year: 2024
- Citation:
  - APA: Author(s). (2024). Computational Model of Effective Thermal Conductivity of Green Insulating Fibrous Media. Materials, 17(1), 252. DOI: 10.3390/ma17010252

Conclusion:

Hamidou Sankara is a promising researcher whose academic background, commitment to sustainability, and teaching experience make him a strong candidate for the Research for Best Researcher Award. By focusing on expanding his network, enhancing his publication record, and developing project management skills, he can further elevate his research impact and contribute significantly to the field of renewable energy.

Lecturer | University of Liverpool | United Kingdom

Research Assistant | NUST College of Electrical and Mechanical Engineering | Pakistan

Featured Publications

Featured Publications

Featured Publications

Professor at Chongqing University, China

Professional Profile

Education

Professional Experience

Research Interest

Award and Honor

Conclusion

Publications Top Noted

Profile

Education 🎓

Experience 💼

Research Interests 🔍

Awards 🏆

Publications Top Notes:📚

Publication Profile:

Strengths for the Award:

Areas for Improvement:

Education:

Experience:

Research Focus:

Awards and Honors:

Publication Top Notes:

Conclusion: