Tag: energy professionals award

Mohamed Almihat | Energy | Research Excellence Award

Published on by World Science Awards

Dr. Mohamed Almihat | Energy | Research Excellence Award

Tshwane University of Technology | South Africa

Dr. Mohamed G. Moh. Almihat is a Postdoctoral Researcher at Tshwane University of Technology, South Africa, specializing in renewable energy systems, microgrids, and power system control. He holds a Doctor of Engineering in Electrical Engineering from Cape Peninsula University of Technology and a PhD in Public Administration with a focus on socioeconomic and development studies from Tarlac State University, Philippines. His interdisciplinary background enables him to bridge advanced energy engineering with sustainable development policy. Dr. Almihat has published over ten peer-reviewed journal and conference papers in internationally recognized journals, including AIMS Energy, Smart Cities, and Solar Energy and Sustainable Development, with growing citation impact. His research focuses on hybrid renewable microgrids, islanded and standalone power systems, energy management strategies, and rural electrification. He has collaborated with researchers across South Africa, Asia, and North Africa and actively contributes to academia as a reviewer, conference session chair, and Vice Chair of the IET on Campus at CPUT.

Citation Metrics (Google Scholar)

240
200
100
50
10
5

Citations
248
h-index
6
i10-index
5

Citations

h-index

i10-index

Lang Liu | Energy | Best Researcher Award

Published on by World Science Awards

Mr. Lang Liu | Energy | Best Researcher Award

China University of Petroleum (Beijing) | China

Mr. Lang Liu is an emerging researcher in the field of power engineering and engineering thermophysics, specializing in the preparation of advanced filtration fiber materials, emulsion stability mechanisms, and high-efficiency oil–water separation technologies. As a doctoral candidate at the China University of Petroleum (Beijing), he has contributed to several national-level and industry-focused research projects that address critical challenges in natural gas purification and multiphase flow control. His participation in the development of domestic gas–liquid filter elements for long-distance natural gas pipeline compressor units, as well as his research contributions to the National Natural Science Foundation of China (NSFC) Young Scientist Project on internal droplet coalescence mechanisms, demonstrates a strong alignment between his academic work and major national energy needs. Mr. Liu has published research in reputable international and domestic journals, including Petroleum Processing (Petroleum Science and Technology), Colloids and Surfaces A, and Processes. His scholarly output includes 2 indexed publications, 19 citations, and an h-index of 1, reflecting an impactful early-stage research trajectory. His work exhibits strong interdisciplinary integration across materials science, colloid chemistry, and thermal engineering, and he has collaborated within cross-functional academic teams to advance filtration system design and performance evaluation. In recognition of his academic excellence, Mr. Liu has received the Doctoral Student Academic Scholarship at China University of Petroleum (Beijing) and multiple national-level awards in engineering innovation and energy conservation competitions. His research holds significant societal value, contributing to improved efficiency and sustainability in natural gas processing, reduced environmental impact of industrial separation processes, and enhanced reliability in energy infrastructure. With a growing record of scientific contributions and a clear commitment to advancing filtration and separation technologies, Mr. Lang Liu represents a promising researcher poised to make continued contributions to global energy engineering and sustainable process innovation.

Profile: Scopus

Featured Publications

  1. 2025). Multi-layer filter material with a superoleophobic pore size gradient for the coalescence separation of surfactant-stabilized oil-in-water emulsions.

 

Shehzad Ahmed | Energy | Best Researcher Award

Published on by World Science Awards

Dr. Shehzad Ahmed | Energy | Best Researcher Award

Shanghai Jiaotong University | China

Dr. Shehzad Ahmed is a materials scientist whose research advances fundamental and applied understanding of amorphous and energy-storage materials, with a particular emphasis on phase-change memory systems, transition-metal carbides, porous carbon frameworks, and advanced battery technologies. His work investigates atomic-scale structure, electronic behavior, and crystallization kinetics in disordered materials using state-of-the-art computational tools, including density functional theory, multiscale modeling, and high-precision simulation packages such as VASP, CP2K, Materials Studio, and VMD. Dr. Ahmed completed research training across internationally recognized laboratories, contributing to projects spanning condensed matter physics, nanomaterials engineering, and theoretical chemistry. He has authored numerous peer-reviewed publications in reputable journals such as Physical Chemistry Chemical Physics, Nanoscale, npj Computational Materials, Materials Today Chemistry, Small, Optics Express, and Journal of Physical Chemistry C, demonstrating both scientific depth and multidisciplinary reach. His work has also appeared in special issues dedicated to advances in photonic phase-change materials and structural evolution in Sb–Te alloys, highlighting his expertise in memory materials relevant to future high-speed photonic and electronic devices. He maintains active collaborations with researchers in China, Pakistan, Europe, and beyond, contributing theoretical insights to experimental and engineering groups working on batteries, metasurfaces, photonics, and electrocatalysis. Dr. Ahmed’s research initiatives address globally relevant technological challenges, including sustainable energy storage, next-generation data memory systems, and efficient optoelectronic platforms. Through computational materials discovery, he contributes pathways for designing high-capacity anodes, high-performance cathodes, 3D porous structures, and tunable nanophotonic elements. His scientific output, supported by continuous collaborations and diverse research environments, reflects a growing impact on the broader materials science community. Collectively, his work advances the international effort to develop more efficient, durable, and sustainable materials for energy and information technologies, reinforcing his position as an emerging researcher with significant contributions to modern materials research.

Profile: Google Scholar

Featuered Publications

Ali, L., Ali, B., Liu, X., Ahmed, S., & Shah, M. A. (2022). Analysis of bio-convective MHD Blasius and Sakiadis flow with Cattaneo–Christov heat flux model and chemical reaction. Chinese Journal of Physics, 77, 1963–1975.

Idrees, M., Batool, S., Din, M. A. U., Javed, M. S., Ahmed, S., & Chen, Z. (2023). Material-structure-property integrated additive manufacturing of batteries. Nano Energy, 109, 108247.

Farooq, U., Shah, U. A., Ishaq, M., Hu, J. G., Ahmed, S., Chen, S., Zheng, Z. H., Su, Z. H., … (2023). Defects passivation by solution-processed titanium doping strategy towards high efficiency kesterite solar cells. Chemical Engineering Journal, 451, 139109.

Younis, U., Muhammad, I., Wu, W., Ahmed, S., Sun, Q., & Jena, P. (2020). Assembling Si₂BN nanoribbons into a 3D porous structure as a universal anode material for both Li- and Na-ion batteries with high performance. Nanoscale, 12(37), 19367–19374.

Ali, A., Liang, Y., Ahmed, S., Yang, B., Guo, B., & Yang, Y. (2020). Mutual contaminants relational realization and photocatalytic treatment using Cu₂MgSnS₄ decorated BaTiO₃. Applied Materials Today, 18, 100534.

Seyed Saeed Madani | Energy | Best Researcher Award

Published on by World Science Awards

Dr. Seyed Saeed Madani | Energy | Best Researcher Award

Waterloo University, Canada

Dr. Seyed Saeed Madani is a distinguished Senior Mechanical Engineer and Battery & Energy Storage Systems Expert with over 20 years of combined academic and industrial experience spanning mechanical, thermal, and electrochemical engineering. He earned his Ph.D. in Energy Technology from Aalborg University, Denmark (2016–2021), with a visiting research term at the Bern University of Applied Sciences, Switzerland, where he focused on degradation modeling and diagnostics of lithium-ion batteries. He holds an M.Sc. in Energy Systems Engineering from the University of Manchester (UK) and K.N. Toosi University (Iran) and a B.Sc. in Mechanical Engineering from Chamran University, Iran. Professionally, Dr. Madani has served as a Postdoctoral Fellow at the University of Waterloo and INRS, Université du Québec, working on advanced battery modeling, digital twins, and AI-enabled battery management systems. Previously, at the Karlsruhe Institute of Technology (Germany), he contributed to EU-funded projects on thermal safety and lifetime prediction of EV batteries. His early career at the National Iranian Oil Company focused on hybrid diesel–PV–battery system design and industrial energy optimization. His research interests include lithium-ion and solid-state battery systems, degradation and safety modeling, electrochemical–thermal coupling, AI-based diagnostics, and next-generation digital energy systems. Dr. Madani’s research skills encompass multiphysics modeling, machine learning, CFD/FEA simulation, electrochemical analysis, and IoT integration for smart energy applications. He has authored over 60 peer-reviewed publications with high citation impact and has collaborated with global leaders in energy and battery research. Among his awards and honors are the Mitacs Elevate Postdoctoral Fellowship (Canada), the OTTO MONSTEDS FOND Ph.D. Scholarship (Denmark), and participation in EU Research Grants for battery modeling. In conclusion, Dr. Madani exemplifies a global research leader whose innovative, multidisciplinary approach continues to advance sustainable energy storage, electric mobility, and intelligent energy system technologies worldwide.

Profiles: ORCID | Scopus | Google Schoar| LinkedIn

Featured PUblications

Madani, S. S., Shabeer, Y., Fowler, M., Panchal, S., Chaoui, H., Mekhilef, S., … (2025). Artificial intelligence and digital twin technologies for intelligent lithium-ion battery management systems: A comprehensive review of state estimation, lifecycle optimization, and predictive maintenance. Batteries, 11(8), 298.

Shabeer, Y., Madani, S. S., Panchal, S., & Fowler, M. (2025). Performance optimization of high energy density aluminum-air batteries: Effects of operational parameters and electrolyte composition. Future Batteries, 100082.

Madani, S. S., Shabeer, Y., Allard, F., Fowler, M., Ziebert, C., Wang, Z., Panchal, S., … (2025). A comprehensive review on lithium-ion battery lifetime prediction and aging mechanism analysis. Batteries, 11(4), 127.

Madani, S. S., Allard, F., Shabeer, Y., Fowler, M., Panchal, S., Ziebert, C., … (2025). Exploring the aging dynamics of lithium-ion batteries for enhanced lifespan understanding. Journal of Physics: Conference Series, 2968(1), 012017.

Shabeer, Y., Madani, S. S., Panchal, S., Mousavi, M., & Fowler, M. (2025). Different metal–air batteries as range extenders for the electric vehicle market: A comparative study. Batteries, 11(1), 35.

Dr. Seyed Saeed Madani’s work bridges cutting-edge science and real-world innovation by advancing intelligent, safe, and sustainable battery energy storage systems. His integration of AI-driven modeling, digital twins, and advanced electrochemical design accelerates the global transition toward cleaner energy, electric mobility, and resilient power infrastructures, driving impactful progress in both industry and environmental sustainability.