Ahmed Albojamal | Energy Sustainability | Research Excellence Award

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Dr. Ahmed Albojamal | Energy Sustainability | Research Excellence Award

San Diego City College | United States

Dr. Ahmed Albojamal is a mechanical engineer specializing in thermal transport, nanofluids, electronic cooling, and phase change materials. His research focuses on heat transfer enhancement in porous media and metal foams, nanofluid flow modeling, and energy storage systems. He has contributed extensively to understanding particle deposition, natural and forced convection, and thermal management in complex geometries, integrating numerical simulations with experimental analysis. His work advances energy-efficient HVAC systems, thermal management of electronic devices, and sustainable building technologies. With multiple peer-reviewed publications and expertise in both theoretical and applied thermal sciences, he bridges engineering fundamentals with practical energy solutions.

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Sunil Singal | Clean Energy | Research Excellence Award

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Dr. Sunil Singal | Clean Energy | Research Excellence Award

Indian Institute of Technology Roorkee | India 

Dr. Sunil Kumar Singal is a distinguished Professor in the Department of Hydro and Renewable Energy at IIT Roorkee, with over four decades of experience in teaching, research, and consultancy. His expertise spans small hydropower resource assessment, planning and design, techno-economic analysis, integrated renewable energy systems, and water resources management. He has guided numerous doctoral and postgraduate scholars, authored extensive research publications, books, standards, and guidelines, and led nationally and internationally funded projects. Dr. Singal has played a key role in policy support, capacity building, technology transfer, and professional committees, contributing significantly to sustainable hydropower and renewable energy development.

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Atsushi Ishikawa | Energy Sustainability | Research Excellence Award

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Dr. Atsushi Ishikawa | Energy Sustainability | Research Excellence Award

IHI Corporation | Japan 

Atsushi Ishikawa is a Senior Researcher at IHI Corporation, Japan, specializing in energy conversion technologies. His expertise spans thermal energy storage systems, fluidized bed technology, and gas–liquid two-phase flow, with strong foundations in mechanical engineering. He has contributed to both industrial innovation and academic research, combining experimental methods with numerical simulations to advance thermal–fluid sciences. His work supports industrial decarbonization and renewable energy integration, particularly through the development of packed bed and circulating fluidized bed thermal energy storage systems. He has authored multiple peer-reviewed publications, conference papers, and corporate technical articles, and has received professional recognition for excellence in engineering research and measurement techniques.

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Rawdah Whba | Energy Sustainability | Research Excellence Award

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Dr. Rawdah Whba | Energy Sustainability | Research Excellence Award

Dr. Rawdah Whba | Taiz University & Inonu University | Yemen

Dr. Rawdah Abduh Ghaleb Whba is an Assistant Professor of Chemistry at the Faculty of Applied Sciences, Taiz University, Yemen, and currently a Postdoctoral Researcher at İnönü University, Malatya, Türkiye. She specializes in energy storage and conversion, with a strong research focus on polymer electrolytes, electrode materials, and advanced electrochemical systems including solid-state lithium-ion batteries, sodium-ion batteries, and supercapacitors. Dr. Whba completed two bachelor’s degrees in Chemistry from Taiz University with first-class honours, earning two Presidential Awards of Yemen for academic excellence (2006, 2008). She received an English and computer diploma from NODS (2007) and joined Taiz University as a lecturer in 2009. She obtained her MSc (2017) and PhD (2022) in Chemistry from Universiti Kebangsaan Malaysia (UKM) under prestigious scholarships from the Yemeni Government and the Islamic Development Bank. She later served as a research assistant at UKM before receiving the Türkiye Scholarships Postdoctoral Award (2023–2024), completing a fellowship at Istanbul Medeniyet University. Currently, Dr. Whba works on Na-ion full-cell development, specializing in high-performance cathode materials, pre-sodiation strategies, interfacial engineering, operando analysis, and DFT-supported materials optimization. Her broader expertise includes polymer synthesis, grafted polymers, thin-film membrane fabrication, organic/inorganic materials synthesis, electrochemical characterization, kinetic studies, and materials evaluation for next-generation rechargeable batteries. Dr. Whba has authored numerous Q1 and Q2 Web of Science journals, including publications in Journal of Power Sources, Electrochimica Acta, Ionics, ACS Applied Materials & Interfaces, Langmuir, Advanced Sustainable Systems, Energy Technology, and International Journal of Biological Macromolecules. She has also published impactful review articles and collaborative works involving operando XAS, DFT studies, and biomass-derived electrode materials. She is an active scientific reviewer, contributing to Springer, Elsevier, ACS, Ionics, Carbon Letters, and multiple high-impact journals, reviewing more than 30 manuscripts, book chapters, and conference submissions. Dr. Whba has also provided academic service at Taiz University as Secretariat of the Department and Examination Committee Member and has represented academic staff in the University Syndicate since 2014. A dedicated educator, she has taught a wide range of undergraduate chemistry courses—General, Inorganic, Organic, Analytical, Physical, Biochemistry, and Pharmaceutical Analysis—at Taiz University and other institutions in Yemen. Dr. Whba is a member of several professional bodies including the American Chemical Society (ACS), the International Society of Electrochemistry (ISE), the Polymer Ionic Group (Malaysia), and the Taiz University Staff Syndicate. Her research continues to make significant contributions in polymer chemistry, electrochemistry, and sustainable energy materials, with ongoing work advancing the performance, stability, and scalability of sodium- and lithium-ion energy storage technologies.

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Featured Publications

Dogan, E., Maiga, A., Whba, R., Harfouche, M., Ozturk, Z. R., Farhan, A., Altin, E., Duygulu, Ö., Ipek, S., Kartal, R., et al. (2026). Influence of iron doping on α-NaMnO₂ lattice symmetry: Insight from operando X-ray absorption, ex-situ structural analysis, and electrochemical performance using chestnut shell-derived hard carbon. Journal of Power Sources. https://doi.org/10.1016/j.jpowsour.2025.238602

Ateş, M. N., Zengin, F., Whba, R., Tunaboylu, B., Aydemir, U., Peighambardoust, N. S., Karslıoğlu, N. G., Malkoç, H. C., Demiryürek, R., Güleryüz, Ö., et al. (2025). Mechanistic insights into cathode-driven capacity degradation of NMC111/graphite pouch cells under long-term cycling. Electrochimica Acta. https://doi.org/10.1016/j.electacta.2025.147611

Whba, R., Altın, S., Serin, S., Whba, F., Nakir, M. Y., & Sahinbay, S. (2025). Synergistic behavior of epoxidized natural rubber grafted di(ethylene glycol) methyl ether methacrylate-based solid polymer electrolytes: Experimental and density functional theory (DFT) study. Journal of Industrial and Engineering Chemistry. https://doi.org/10.1016/j.jiec.2025.11.038

Whba, R., Sahinbay, S., Whba, F., Nakir, M. Y., & Altin, S. (2025). Unlocking the potential of epoxidized natural rubber (ENR)-based polymer electrolytes: Key strategies, bibliometric insights, and future directions. Langmuir. https://doi.org/10.1021/acs.langmuir.5c00631

Dogan, E., Whba, R., Altin, E., Moeez, I., Chung, K. Y., Stoyanova, R., Koleva, V., Aktas, A., Altin, S., & Sahinbay, S. (2025). Optimized performance of Na₀.₆₇Mn₀.₅Fe₀.₅O₂@TiO₂ and presodiated hard carbon (Pre-SHC) full-cells using direct contact method. Journal of Power Sources. https://doi.org/10.1016/j.jpowsour.2025.236327

Whba, R., Su’ait, M. S., Whba, F., & Ahmad, A. (2024). Research progress on polyacrylonitrile-based polymer electrolytes for electrochemical devices: Insight into electrochemical performance. Journal of Power Sources. https://doi.org/10.1016/j.jpowsour.2024.234539

Achieford Mhondera | Climate Solutions | Best Researcher Award

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Mr. Achieford Mhondera | Climate Solutions | Best Researcher Award

Mr. Achieford Mhondera | University of Zimbabwe | Zimbabwe

Achieford Mhondera is a Ph.D. candidate in Climate Change Communication at the University of Zimbabwe, serving as a Junior Lecturer in the Department of Languages, Literature, and Culture, and as the Deputy Head of the Climate Action Directorate at the Africa Network of Youth Policy Experts. He is an experienced communication strategist and passionate climate justice advocate with a strong background in environmental communication, policy engagement, and youth-led climate activism. His work centers on amplifying voices from the Global South and advancing meaningful climate action through strategic communication and advocacy. At the University of Zimbabwe, he teaches courses in communication, research methods, and corpus linguistics, combining academic rigor with real-world engagement. He has been recognized for his innovative research and commitment to bridging policy and practice across Africa. As a guest columnist for leading publications such as Newsday, The Herald, and China Daily, he contributes to public discourse on climate change and sustainability. His scholarly output includes several book chapters, journal articles, and conference presentations focusing on climate communication and ecological civilization. Certified in climate diplomacy, governance, and negotiation, he brings a multidisciplinary perspective to global climate dialogues. A proud alumnus of Tsinghua University’s School of Journalism and Communication, he is also the founder of the Climate Research and Advocacy Trust and an active member of international networks promoting biodiversity, food sovereignty, and environmental justice across Africa and beyond.

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Jimmy Romanos | Energy Sustainability | Excellence in Research

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Dr. Jimmy Romanos | Energy Sustainability | Excellence in Research

Dr. Jimmy Romanos | Lebanese American University | Lebanon

Dr. Jimmy Romanos is an Associate Professor of Physics at the Lebanese American University, with a distinguished record in interdisciplinary research spanning thermal physics, materials science, and energy storage. He holds a Ph.D. in Physics from the University of Missouri, USA, and has extensive experience in both academia and industry, including leadership roles as a lead materials scientist in the U.S. and as a consultant in the energy sector. His research focuses on atomic-scale thermodynamic processes in gas adsorption, targeting applications such as carbon dioxide capture, methane and hydrogen storage, gas separation, and lead-free ceramics. Dr. Romanos has been recognized with the Shoman Award for Arab Researchers in Physics, becoming the first Lebanese physicist to receive this honor. He has led numerous funded projects, both intramural and extramural, and holds multiple patents in advanced carbon materials and gas storage technologies. With over a decade of prolific contributions through peer-reviewed publications, conference presentations, and industrial reports, his work bridges computational, theoretical, and experimental approaches to address critical challenges in energy and environmental technologies.

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Featured Publications

Romanos, J., Beckner, M., Rash, T., Firlej, L., Kuchta, B., Yu, P., Suppes, G., … (2012). Nanospace engineering of KOH activated carbon. Nanotechnology, 23(015401), 1–11. https://doi.org/10.1088/0957-4484/23/1/015401

Kuchta, B., Firlej, L., Mohammadhosseini, A., Boulet, P., Beckner, M., … Romanos, J. (2012). Hypothetical high-surface-area carbons with exceptional hydrogen storage capacities: Open carbon frameworks. Journal of the American Chemical Society, 134(36), 15130–15137. https://doi.org/10.1021/ja3062439

Romanos, J., Burress, J., Pfeifer, P., Rash, T., Shah, P., Suppes, G. (2012). High surface area carbon and process for its production. US Patent 20130190542A1.

Beckner, M., Romanos, J., Dohnke, E., … (2011). Analysis of hydrogen sorption characteristics of boron-doped activated carbons. Bulletin of the American Physical Society, 56.

Soo, Y. C., Beckner, M., Romanos, J., Wexler, C., Pfeifer, P., Buckley, P., … (2011). A high volume, high throughput volumetric sorption analyzer. Bulletin of the American Physical Society, 56(1), 20003.

Xue Li | Energy Sustainability | Best Researcher Award

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Ms. Xue Li | Energy Sustainability | Best Researcher Award

Ms. Xue Li | Wuhan Institute of Technology | China

Dr. Li Xue received her Ph.D. in Thermal Engineering from Dalian University of Technology in 2021. She is currently a faculty member at the School of Optical Information and Energy Engineering, Wuhan Institute of Technology. Her core research focuses on the near-wall collisions of microscale particles and the fundamentals of particle dynamics. She investigates how microscale interactions influence fluid flow, heat transfer, and energy conversion processes. Her studies contribute to advancing knowledge in microfluidics, aerosol science, and particulate system behavior. By integrating theoretical modeling with experimental validation, she addresses key challenges in microscale transport phenomena. Her work aims to improve the design of energy systems with higher efficiency and better control of particle interactions. She is also interested in the application of microscale particle research in thermal management and engineering systems. Through her academic contributions, she supports interdisciplinary advancements bridging thermal engineering and energy science. Dr. Xue continues to expand her research portfolio while mentoring students in innovative areas of energy and particle engineering.

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Featured Publications

Li, X., Xie, J., Dong, M., Chen, S., & Dong, W. (2024). Could the rebound characteristics of oblique impact for SiO₂ particles represent the ash particles? ACS Omega, 9(9), 10564–10574.

Li, X., Dong, M., Zhang, H., Li, S., & Shang, Y. (2020). Effect of surface roughness on capillary force during particle-wall impaction under different humidity conditions. Powder Technology, 369, 253–261.

Li, X., Dong, M., Jiang, D., Li, S., & Shang, Y. (2020). The effect of surface roughness on normal restitution coefficient, adhesion force and friction coefficient of the particle-wall collision. Powder Technology, 361, 311–320.

Li, X., Dong, M., Li, S., & Shang, Y. (2019). Experimental and theoretical studies of the relationship between dry and humid normal restitution coefficients. Journal of Aerosol Science, 130, 67–76.

Dong, M., Mei, Y., Li, X., Shang, Y., & Li, S. (2018). Experimental measurement of the normal coefficient of restitution of micro-particles impacting on plate surface in different humidity. Powder Technology, 334, 52–60.

Dong, M., Li, X., Mei, Y., & Li, S. (2018). Experimental and theoretical analyses on the effect of physical properties and humidity of fly ash impacting on a flat surface. Journal of Aerosol Science, 117, 121–131.

Asif Khan | Clean Energy | Best Researcher Award

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Dr. Asif Khan | Clean Energy | Best Researcher Award 

Dr. Asif Khan | University of Science and Technology Bannu kpk | Pakistan

Asif Nawaz Khan is a committed physicist and lecturer at the University of Science and Technology Bannu, with extensive experience in teaching and research at both undergraduate and postgraduate levels. He is currently pursuing a Ph.D. in Physics and has developed strong expertise in computational and theoretical physics, particularly in the design and analysis of 2D and 3D perovskite materials. His research encompasses structural, optical, thermoelectric, elastic, and thermodynamic properties, alongside solar cell device performance, phonon calculations, and molecular dynamics simulations. Proficient in advanced simulation software and machine learning techniques, he actively supervises students in both experiments and computational modeling, contributing significantly to the advancement of materials science.

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Featured Publications

Khan, A., Khan, N. U., Nawaz, A., & Ullah, K., & Manan, A. (2024). A DFT study to explore structural, electronic, optical and mechanical properties of lead-free Na2MoXO6 (X= Si, Ge, Sn) double perovskites for photovoltaic and optoelectronic applications. Computational and Theoretical Chemistry, 1240, 114834.

Hosen, A., Mousa, A. A., Nemati-Kande, E., Khan, A. N., Abu-Jafar, M. S., … (2025). Systematic computational screening and design of double perovskites Q2LiMH6 (Q= K, Rb; M= Ga, In, Tl) for efficient hydrogen storage: A DFT and AIMD approach. Surfaces and Interfaces, 106608.

Khan, A. N., Rabhi, S., Jehangir, M. A., Charif, R., Khan, N. U., Begagra, A., … (2025). Evaluating A2SrGeI6 (A= K and Rb) lead-free double perovskites: Structural, elastic, and optoelectronic insights for clean energy. Inorganic Chemistry Communications, 174, 113949.

Khan, N. U., Ghani, U., Khan, A., Khan, A. N., Ullah, K., Ali, R., & Fadhali, M. M. (2025). Theoretical insight into stabilities and optoelectronic properties of RbZnX3 (X= Cl, Br) halide perovskites for energy conversion applications. Optical and Quantum Electronics, 57(1), 109.

Rabhi, S., Khan, A. N., Chinoune, O., Charif, R., Bouri, N., Al-Qaisi, S., Sadaf, S., … (2025). Insight into NaSiCl3: A lead-free perovskite for the next generation revealed by DFT and SCAPS-1D. Physical Chemistry Chemical Physics, 27(25), 13490–13507.

Hosen, A., Sadeghi, A., Abdulhussein, H. A., Nemati-Kande, E., Khan, A. N., … (2025). First-principles insights into NaScQH6 (Q= Fe, Ru, Os): Promising high-density hydrogen storage materials. International Journal of Hydrogen Energy, 177, 151392.

Khan, A. N., Khan, N. U., Khan, A., Ali, R., & Fadhali, M. M. (2025). Lead-free, stable, and effective double Ca2TiXO6 (X= Ge, Sn) perovskites for photovoltaic application. Journal of Sol-Gel Science and Technology, 1–13.

Khan, A. N., Kaleem, M., Khan, N. U., Nasir, A., Khan, A., & Abbasi, M. Z. (2026). Multi-functional DFT and SCAPS-1D analysis of lead-free Z2MgGeI6 (Z= Na, K) double perovskites for optoelectronic, photo-catalytic, and photovoltaic applications. Solar Energy Materials and Solar Cells, 294, 113922.

Khan, A. N., Khan, N. U., Kaleem, M., Tanzeel, M., Nasir, A., Hosen, A., Akremi, A., … (2025). Lead-free X2MgGeI6 (X= Rb, Cs) double perovskites for multi-functional energy applications: A DFT and SCAPS-1D perspective. Solid State Sciences, 108049.

Khan, Z., Manan, A., Khan, N. U., Khan, A. N., Khan, A., & Liu, G., … (2025). Exploring Sn-based vacancy-ordered halide double perovskites Na2Sn(Cl/Br)6 for optoelectronic, thermoelectric, and solar-driven hydrogen reduction applications. Chemical Papers, 1–21.

Khan, Z., Manan, A., Khan, N. U., Khan, A. N., Khan, A., Joifullah, S., Al Yeamin, M., … (2025). DFT-driven pressure-induced modulation in K2TIYCl6: Unlocking pressure-responsive physical and photo-catalytic properties. Optical and Quantum Electronics, 57(7), 1–32.