Wanke cao | Electric Vehicles | Best Paper Award

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Prof. Wanke Cao | Electric Vehicles | Best Paper Award

Director of the Department of In-Vehicle Network Technologies |  Shenzhen Automotive Research Institute (SZART) | China

Prof. Wanke Cao is an established academic and researcher in electric vehicle engineering, with a strong profile spanning summary, professional experience, research interests, research skills, awards and honors, and overall contributions to the field. His professional experience includes long-term academic leadership and research roles in electric vehicle systems, in-vehicle networks, and intelligent automotive technologies, with international research exposure and institutional responsibilities. His research interests focus on networked control of electric vehicles, vehicle dynamics and control, and in-vehicle network technologies. His research skills include modeling and control of vehicle systems, intelligent transportation technologies, embedded and networked automotive systems, and applied engineering research. He has received recognition for sustained research output, academic service, and technical contributions. Overall, his work demonstrates consistent impact on electric vehicle technology development and scholarly advancement. He has acheived 1195 Citations, 69 Documents,16 h-index.

Citation Metrics (Scopus)

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1,195
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69
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16
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Top 5 Publications

Eshetu Haile Gorfie | Hybrid Vehicles | Research Excellence Award

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Dr. Eshetu Haile Gorfie | Hybrid Vehicles | Research Excellence Award

Researcher | Bahir Dar University | Ethiopia

Dr. Eshetu Haile Gorfie is an accomplished academic and researcher with extensive experience in teaching, research, and academic leadership within the field of mathematics. His professional experience spans undergraduate and postgraduate instruction, supervision of MSc and PhD researchers, curriculum coordination, and leadership roles such as department head and program coordinator. His research interests focus on fluid dynamics, magnetohydrodynamics, nanofluid flow, differential equations, numerical methods, and heat and mass transfer phenomena. He possesses strong research skills in mathematical modeling, analytical and numerical analysis, scientific computing, and scholarly publishing, with contributions to high-impact international journals. His awards and honors recognize excellence in teaching, conference leadership, and academic service. Overall, his work demonstrates sustained impact through research productivity, mentorship, and institutional contribution.He has acheived  357 Citations, 19 Documents, 9 h-index.

Citation Metrics (Scopus)

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357
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19
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9
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Featured Publications

Bao Xie | Electric Vehicles | Editorial Board Member

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Dr. Bao Xie | Electric Vehicles | Editorial Board Member

lecturer | Hefei University of Technology | China

Dr. Bao Xie is an accomplished researcher and lecturer specializing in Electrical Engineering with a strong academic foundation and extensive experience in renewable energy systems, grid-connected power generation, and inverter stability control. Currently serving as a lecturer and supervisor of master’s candidates at the Hefei University of Technology, he has established a solid reputation in the fields of power electronics, control theory, and grid integration of renewable energy sources. His research primarily focuses on the control and stability of renewable energy grid-connected power systems, addressing challenges related to weak grid conditions, harmonic resonance, and digital control of large-scale photovoltaic (PV) plants. Over the years, Dr. Xie has demonstrated exceptional technical acumen and problem-solving ability, contributing significantly to multiple national and provincial-level research projects, including the Anhui Provincial Natural Science Foundation and the National Key Research and Development Programs. His research skills encompass advanced modeling, control strategy design, resonance analysis, and power conversion optimization, supported by a profound understanding of grid dynamics and inverter interactions. Dr. Xie’s scholarly contributions include over 60 publications in prestigious journals such as IEEE Transactions on Energy Conversion, IET Power Electronics, and International Journal of Electrical Power and Energy Systems, showcasing innovative approaches to improving grid stability and renewable integration. His dedication to academic excellence has earned him recognition as a promising figure in the next generation of electrical engineers, with his work offering impactful insights for sustainable and intelligent energy systems. Through his continuous pursuit of innovation, collaboration, and mentorship, he exemplifies the integration of theory and practical engineering for real-world energy applications. He has achieved 653 Citations, 61 Documents, 15h-index.

Profile:   Scopus

Featured Publications 

  1. Xie, B., Zheng, W., Li, P., Shi, Y., & Su, J. (2025). Stability analysis and admittance reshaping for PQ inverters with different power control methods. International Journal of Electrical Power and Energy Systems.

  2. Xie, B., Zhang, Q., Liu, T., Zhou, L., & Hao, G. (2025). Research on multi-model LQR control strategy for grid-connected inverters under weak grid. Electric Power Systems Research.

  3. Xie, B., Guo, K., Mao, M., Zhou, L., Liu, T., & Zhang, Q. (2025). Optimization of energy storage capacity of village-level microgrid considering the orderly charging of electric vehicles. Sustainable Energy Grids and Networks.

  4. Xie, B., Zhou, L., Liu, T., Zhang, Q., & Hao, G. (2025). Topology and control method of interleaved parallel DC/DC converters with ripple compensation for fuel cell applications. Journal of Power Electronics.

  5. Xie, B., Mao, M., Liu, T., Zhou, L., & Zhang, Q. (2025). State prediction consistency secondary control strategy for microgrids with adaptive virtual impedance. Dianji Yu Kongzhi Xuebao (Electric Machines and Control).

    Dr. Bao Xie’s research advances the stability, efficiency, and intelligence of renewable energy integration within modern power grids. His innovative control strategies for inverters and microgrids foster sustainable energy transitions and resilient smart grid infrastructures. Through interdisciplinary research bridging academia and industry, his work supports global innovation in clean energy technologies and digital power systems.

Amirmahdi Rahmani | Environmental Impact of Vehicles | Editorial Board Member

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Mr. Amirmahdi Rahmani | Environmental Impact of Vehicles | Editorial Board Member

Master Student in Sustainability in Polymer Technology | Deggendorf Institute of Technology | Germany

Mr. Amirmahdi Rahmani is a passionate and forward-thinking researcher whose work bridges sustainability, renewable energy, and advanced materials engineering. His academic foundation and professional journey reflect a deep commitment to advancing eco-friendly technologies and sustainable industrial practices. His research experience spans diverse domains, including green tribology, bio-lubricants, renewable energy systems, and polymer sustainability. Through his professional roles, he has contributed to enhancing mechanical and environmental performance in industrial applications, from improving the mechanical properties of lubricants to optimizing oscillating flow reactors for efficient mixing processes. His collaboration with leading institutions and companies such as Springer Nature, Pardis Shimi Bakhtar Co., and Iran Khodro Co. underscores his technical expertise and research integrity. Rahmani’s publications demonstrate a consistent focus on sustainability and innovation, with studies exploring bio-lubricants, nano-enhancers, zero-carbon village models, and wind energy optimization for greenhouse gas reduction. His research interests lie in sustainable materials development, circular economy integration, renewable energy conversion, and mechanical system optimization for low-carbon technologies. He is skilled in experimental design, computational modeling, life cycle assessment, and energy efficiency analysis, combining theoretical insights with practical applications. His achievements reflect academic rigor, professional discipline, and a global perspective on the transition to sustainable energy systems. Rahmani’s dedication to research excellence and his interdisciplinary approach position him as an emerging scholar in the fields of green technology and sustainable engineering. He has achieved 11 Citations, 3 documents, 2h-index.

Profiles:  Google Scholar Scopus

Featured Publications 

  1. Yousefi, H., Montazeri, M., & Rahmani, A. (2021). Techno-economic analysis of wind turbine systems to reduce carbon emission of greenhouses: A case study in Iran. In Proceedings of the 7th Iran Wind Energy Conference (IWEC2021) (pp. 1–4). IEEE.

  2. Rahmani, A., Razavi, H. K., & Dehghani-Soufi, M. (2024). Green tribology assessment: A comprehensive review of bio-lubricants and nano enhancers. Energy Conversion and Management: X, 24, 100794.

  3. Yousefi, H., Rahmani, A., & Montazeri, M. (2023). Sustainable development through the establishment of zero-carbon villages. In Proceedings of the 8th International Conference on Technology and Energy Management (ICTEM2023). IEEE.

  4. Rahmani, A., Dehghani-Soufi, M., Fazeli, H., & Razavi, H. K. (2024). Experimental analysis of nano additive mixing in bio-lubricants: Implications for tribological performance using oscillatory flow technology. Available at SSRN 5118516.

    Mr. Amirmahdi Rahmani’s research advances sustainable energy and green tribology through innovative material science and renewable technology integration. His work bridges environmental engineering and mechanical optimization, providing scalable solutions for low-carbon industries. By combining experimental and techno-economic analyses, Rahmani contributes to the global transition toward sustainable manufacturing, clean energy systems, and environmentally responsible engineering innovation.

 

Adekanmi Adeyinka | Hybrid Vehicles | Best Researcher Award

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Mr. Adekanmi Adeyinka | Hybrid Vehicles | Best Researcher Award

Research Associate | Auburn University | United States

Mr. Adekanmi Miracle Adeyinka is an accomplished researcher, engineer, and educator with a distinguished background in mechanical and energy systems engineering, renewable energy technologies, and sustainable innovation. His professional experience spans academia, industry, and entrepreneurship, combining technical expertise with leadership in renewable energy advocacy and implementation. As Chief Executive Officer of Solar Pride Ltd., he spearheaded transformative projects, including the development of a 10-year renewable energy roadmap for a telecommunications firm, policy advocacy for sustainable energy regulations, and the establishment of the Solar Pride Academy to train young engineers in solar energy technologies. His earlier role as an Energy Consultant at T9 Embedded Systems Laboratory involved leading energy audits, integrating smart grid solutions, and implementing solar-wind hybrid systems that enhanced energy efficiency across industries. In academia, Adeyinka served as Lecturer II at the Federal University of Technology, Akure, where he redesigned the mechanical engineering curriculum and mentored research projects in sustainable energy applications. Currently, as a Graduate Teaching and Research Assistant at Auburn University, his research focuses on thermal management systems for lithium-ion batteries, improving battery performance, safety, and efficiency—work that has led to multiple high-impact publications and conference presentations. His research interests include battery thermal modeling, renewable energy integration, hybrid power systems, sustainable manufacturing, and energy policy development. Adeyinka’s research skills encompass data analysis, modeling, experimental design, energy systems optimization, and climate risk assessment, with proficiency in tools such as MATLAB, COMSOL, ANSYS, Python, and Power BI. His excellence has been recognized through several awards, including the 2024 SAE Doctoral Engineering Scholarship, Commonwealth Scholarship, and Walt Woltosz Fellowship. He is an active member of professional bodies such as ASME, IEEE, COREN, and SAE International. Adeyinka continues to advance the frontiers of clean energy innovation, with a deep commitment to sustainability, academic excellence, and technological advancement. He has achieved 65 Citations,  5 Documents, 3 h-index.

Profiles:  Google Scholar  | ORCID  |  Scopus

Featured Publications 

1. Adeyinka, A. M., Esan, O. C., Ijaola, A. O., & Farayibi, P. K. (2024). Advancements in hybrid energy storage systems for enhancing renewable energy-to-grid integration. Sustainable Energy Research, 11(1), 26.
Citations: 99

2. Adediji, Y. B., Adeyinka, A. M., Yahya, D. I., & Mbelu, O. V. (2023). A review of energy storage applications of lead-free BaTiO₃-based dielectric ceramic capacitors. Energy, Ecology and Environment, 8(5), 401–419.
Citations: 63

3. Adeyinka, A. M., Mbelu, O. V., Adediji, Y. B., & Yahya, D. I. (2023). A review of current trends in thin film solar cell technologies. International Journal of Energy and Power Engineering, 17(1), 1–10.
Citations: 54

4. Osibodu, S. J., Adeyinka, A. M., & Mbelu, O. V. (2024). Phase change material integration in concrete for thermal energy storage: Techniques and applications in sustainable building. Sustainable Energy Research, 11(1), 45.
Citations: 23

5. Ijaola, A. O., Akamo, D. O., Adekanmi, A. M., Saberi, Q., Koken, D., & Asmatulu, E. (2022). Superhydrophobic and self-cleaning electrospun microfibers from recycled styrofoam. Results in Surfaces and Interfaces, 9, 100086.
Citations: 19

Dr. Adekanmi Adeyinka’s research advances the frontiers of clean energy storage and sustainable materials, bridging gaps between renewable energy generation and grid reliability. His pioneering studies on hybrid storage systems, solar technologies, and eco-friendly materials contribute to reducing global carbon footprints and enhancing energy resilience. Through interdisciplinary innovation, his work empowers a transition toward a more sustainable, efficient, and circular energy economy worldwide.

Zhaoting Zhang | Environmental Impact of Vehicles | Green Transport Innovation Award

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Dr. Zhaoting Zhang | Environmental Impact of Vehicles | Green Transport Innovation Award

Research scholar| Xuzhou Administration Institute | China

Dr. Zhaoting Zhang is a distinguished scholar and Ph.D. candidate in Administrative Management at the School of Public Administration, China University of Mining and Technology . She holds a Master’s degree in Library and Information Science from Guizhou University of Finance and Economics  and a Bachelor’s degree in Financial Management from Jiangsu Normal University (2018). Her professional experience includes her current role at the Xuzhou Administrative Institute, where she contributes to public governance research and administrative innovation. Dr. Zhang’s academic expertise spans digital transformation of public health services, administrative governance, rural development, and sustainable policy implementation. She has demonstrated strong research competence through publications in top-tier SSCI and CSSCI journals, including Finance Research Letters (Q1, IF 10.4 & 7.4) and Frontiers in Public Health, as well as national-level projects funded by the National Social Science Fund on topics such as smart social governance and AI ethical risk prevention. Her research skills include data-driven policy analysis, quantitative and qualitative research design, field investigation, and interdisciplinary synthesis across public management, information systems, and sustainability governance. Recognized for her scholarly excellence, she has received multiple honors including the Outstanding Paper Prize at the Doctoral Forum on Political Science and Public Administration and an Academic Excellence Award during her master’s studies. Dr. Zhang also authored a monograph titled Grassroots Social Development Innovation and Construction , reflecting her commitment to theory-driven and practice-oriented research. Through her ongoing work on digital literacy, green transition policies, and multi-level governance systems, she continues to advance research that bridges public administration theory and real-world policy challenges. With an expanding global research profile and contributions to impactful interdisciplinary projects, Dr. Zhang exemplifies academic innovation, public value, and leadership in her field. Dr. Zhaoting Zhang has received 96 citations , has published 5 scholarly works, and holds an h-index of 3.

Profiles:  Scopus 

Featured Publications

Zhang, Z. (2025). The impact of China’s green emission policies on non-road mobile construction machinery. Natural Resources Forum, 49(2), 2111-2123.