Rifat Yildirim | Bioenergy | Best Researcher Award

Published on by Green Energy Award

Assist. Prof. Dr. Rifat Yildirim | Bioenergy | Best Researcher Award

Assistant Professor | Isparta University of Applied Sciences, Sütçüler Prof. Dr. Hasan Gürbüz Vocational School | Turkey

Assist. Prof. Dr. Rifat Yıldırım is a dedicated scholar at Isparta University of Applied Sciences, Sütçüler Prof. Dr. Hasan Gürbüz Vocational School, Türkiye, specializing in sustainable waste management, bioenergy production, and environmental biotechnology. He earned his academic qualifications with a strong foundation in environmental engineering and biotechnology, focusing on developing sustainable technologies that align with circular bioeconomy principles. Over the years, Dr. Yıldırım has gained extensive professional experience through his involvement in multiple TÜBİTAK-funded projects, including leadership roles as Principal Investigator and R&D Personnel in initiatives related to biogas production, composting systems, and biofilter development. His expertise extends to optimizing composting and anaerobic digestion processes using machine learning and multi-criteria decision-making models, which contribute to resource efficiency, carbon reduction, and energy recovery from organic wastes. Dr. Yıldırım’s research interests encompass waste-to-energy technologies, microbial ecology, environmental risk assessment, and renewable energy systems, where he applies innovative methodologies to address global sustainability challenges. His research skills include bioenergy modeling, statistical optimization, environmental monitoring, and decision-support system development, reflecting a multidisciplinary and solution-driven approach. He has published several papers in prestigious journals such as Environmental Progress & Sustainable Energy, Integrated Environmental Assessment and Management, and Engineering Applications of Artificial Intelligence, advancing the scientific understanding of sustainable waste valorization. Dr. Yıldırım has also contributed to scientific literature with books (ISBN: 978-625-398-818-0, 978-625-398-826-5) and has trained students in national environmental programs. His commitment to integrating scientific innovation with sustainability goals underscores his growing prominence in environmental science and bioenergy research. Dr. Rifat Yıldırım’s academic impact is reflected in his emerging recognition with 5 citations, 4 documents, and an h-index of 2, highlighting his promising influence in sustainable bioenergy and environmental biotechnology research.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

1. Yıldırım, R. (2025, July 31). Analysis of composting methods for sustainable management of biodegradable waste using decision‐making techniques. Environmental Progress & Sustainable Energy, 1–14.

2. Yıldırım, R. (2025, June 17). Comparative analysis of alternatives for sustainable management of biodegradable waste. Integrated Environmental Assessment and Management.

3. Yıldırım, R. (2025, January 29). Machine learning applications in biogas and methane production: A bibliometric analysis. Preprint.

4. Yıldırım, R. (2025, January 9). Bibliometric analysis of biological pretreatments in biogas processes. Polish Journal of Environmental Studies, 34(2), 1439–1443.

5. Ekinci, K., Çiftçi, F., Kumbul, B. S., Yıldırım, R., Solak, M., & Çoban, V. (2023, October). Co-fermentation of macroalga Elodea canadensis in different mixing ratios with dairy manure. Biomass Conversion and Biorefinery, 13, 14185–14192.

6. Yıldırım, R. (2023, August 21). Biyogaz üretim süreçlerinde kullanılacak en uygun risk değerlendirme metodolojisinin analitik hiyerarşi prosesi ile belirlenmesi. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi, 12, 1130–1140.

Derese Kebede Teklie | Renewable Energy | Best Academic Researcher Award

Published on by Green Energy Award

Dr. Derese Kebede Teklie | Renewable Energy | Best Academic Researcher Award

Researcher | Istanbul Technical University | Ethiopia

Dr. Derese Kebede Teklie is an accomplished scholar in Development and Environmental Economics with a strong focus on the intersection of green economy, institutional quality, and sustainable development in Africa. Born on August 19, 1988, in Arsi, Ethiopia, he holds a Ph.D. in Economics from Istanbul Technical University, Turkey, under the supervision of Assoc. Prof. Dr. Mete Han Yağmur. He is also pursuing a second Ph.D. in Green Economy and Sustainability at Brescia University, Italy, expanding his expertise in environmental policy and sustainable growth. Dr. Teklie earned his M.Sc. in Development Economics from Debre Markos University, Ethiopia, and a B.A. in Economics from Mekelle University. His academic journey has been enhanced by international exposure through the Erasmus Exchange Program at Istanbul Kültür University, fostering global research collaboration and cross-cultural learning. Professionally, he serves as an Assistant Researcher at Istanbul Technical University, contributing to projects on Africa’s economic growth, environmental sustainability, and green innovation. Previously, he worked as a Lecturer at Rift Valley University, Ethiopia, and held key roles in NGO project coordination and government research institutes, demonstrating his versatility across academia, research, and community development. His research interests include environmental economics, green growth, renewable energy policy, institutional development, and econometric modeling. Dr. Teklie is skilled in advanced analytical tools such as STATA, SPSS, EViews, MATLAB, Python, and CGE modeling, reflecting his technical proficiency in empirical research. His publications in Sustainability and the International Journal of Energy Economics and Policy address pressing issues in Africa’s environmental and economic transformation. Recognized for his academic dedication and contributions to sustainable development, Dr. Teklie continues to advance impactful interdisciplinary research and international collaboration. Dr. Derese Kebede Teklie’s academic impact is reflected in his growing recognition with 19 citations, 3 documents, and an h-index of 2, highlighting his emerging influence in environmental and development economics research.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

1. Teklie, D. K., & Yağmur, M. H. (2024). The Role of Green Innovation, Renewable Energy, and Institutional Quality in Promoting Green Growth: Evidence from African Countries. Sustainability, 16(14), 6166.

2. Teklie, D. K., & Yağmur, M. H. (2024). Effect of Economic Growth on CO₂ Emission in Africa: Do Financial Development and Globalization Matter? International Journal of Energy Economics and Policy, 14(1), 121–140.

3. Teklie, D. K., & Doğan, B. (2024). Analyzing the Dynamics: Asymmetric Effects of Economic Growth, Technological Innovation, and Renewable Energy on Carbon Emissions in Africa. International Journal of Energy Economics and Policy, 14(5), 509–519.

4. Teklie, D. K. (2021). Rural Household Poverty and Its Determining Factors: A Poverty Analysis Using Alternative Measurement Approaches. International Journal of Advanced Research.

Guanglong Ge | Energy Storage | Best Researcher Award

Published on by Green Energy Award

Dr. Guanglong Ge | Energy Storage | Best Researcher Award

Postdoctoral | Tongji University | China

Dr. Guanglong Ge is a distinguished materials scientist specializing in antiferroelectric, ferroelectric, relaxor ferroelectric, and dielectric materials, with a strong focus on energy storage performance, electrocaloric effects, piezoelectric properties, and structure–property relationships. He earned his Ph.D. in Materials Science from Tongji University, China (2017–2022), following his B.Sc. in Inorganic Materials from Chang’an University (2013–2017). Currently serving as a Postdoctoral Researcher at Tongji University, Dr. Ge leads cutting-edge investigations on the energy storage performance of antiferroelectric ceramics, supported by prestigious funding such as the Sino-German (CSC-DAAD) Postdoc Scholarship, China Postdoctoral Science Foundation, and the Shanghai Postdoctoral Excellence Program. His research contributions have significantly advanced the understanding of multilayer ceramic capacitors and field-induced structural evolution in dielectric materials. Dr. Ge’s professional experience includes participation in national and international R&D programs and collaborative projects aimed at developing high-performance energy storage materials with broad technological relevance. His key research skills encompass materials synthesis, dielectric characterization, in-situ structural analysis, and multiphysics coupling simulation, enabling him to uncover critical insights into phase transitions and energy optimization mechanisms. Recognized for his innovative contributions, Dr. Ge has published over 66 peer-reviewed papers in top journals, including Advanced Materials, Nature Communications, Science Advances, and Energy Storage Materials, and has delivered presentations at major international conferences such as the Ferroelectric International Seminar and the China–Japan Symposium on Ferroelectric Materials. His dedication has earned him multiple awards, including competitive postdoctoral fellowships and recognition for scientific excellence in dielectric research. Dr. Ge’s future research aims to pioneer next-generation sustainable energy storage technologies through interdisciplinary collaboration and advanced material design. Dr. Guanglong Ge’s academic impact is further reflected in his growing recognition with 2,662 citations, 66 documents, and an h-index of 27, demonstrating his influential role in advancing antiferroelectric ceramics and energy storage materials research.

Profiles: Scopus | ORCID

Featured Publications

1. Ge, G., Zeng, H., Qian, J., Shen, B., Cheng, Z., Zhai, J., Liu, Y., Wang, D., & He, L. (2025). Giant energy storage density with ultrahigh efficiency in multilayer ceramic capacitors via interlaminar strain engineering. Nature Communications. Citations: 7

2. Ge, G., Chen, C., Qian, J., Lin, J., Shi, C., Li, G., Wang, S., & Zhai, J. (2025). Local heterogeneous dipolar structures drive gigantic capacitive energy storage in antiferroelectric ceramics. Nature Communications. Citations: 2

3. Ge, G., Yang, J., Shi, C., Lin, J., Hao, Y., & Wei, Y. (2025). Nano-domain configuration boosting energy storage capacity of NaNbO3-based relaxor ferroelectrics. Journal of Power Sources. Citations: 1

4. Ge, G., Hao, Y., Lin, J., Shi, C., & Yao, W. (2025). Outstanding comprehensive piezoelectric properties in KNN-based ceramics via co-optimization of crystal structure and grain orientation. Acta Materialia.

5. Ge, G., Qian, J., Chen, C., Shi, C., Lin, J., Li, G., & Zhai, J. (2025). Excellent energy storage performance of polymorphic modulated antiferroelectric lead zirconate ceramic. Advanced Materials. Citations: 1

 

Debajeet Bora | Green Hydrogen | Best Researcher Award

Published on by Green Energy Award

Assist. Prof. Dr. Debajeet Bora | Green Hydrogen | Best Researcher Award   

Assistant Professor HDR | Mohammed VI Polytechnic University (UM6P) | Morocco

Dr. Debajeet K. Bora is a distinguished researcher and Assistant Professor HDR at Mohammed VI Polytechnic University, Morocco, with extensive expertise in the synthesis and molecular understanding of metal oxides for solar energy conversion, electrocatalysis, artificial photosynthesis, hydrogen generation, and CO₂ reduction. He earned his Ph.D. in Nanosciences from the University of Basel, Switzerland in 2012 (Magna Cum Laude), completed his University Habilitation de Research in 2023 at Mohammed VI Polytechnic University on artificial photosynthesis and electrolyzer-based hydrogen production, and holds a M.Sc. in Nanoscience and Technology from Tezpur University, India. Dr. Bora’s professional experience spans leading research projects at ETH Zürich, Empa Swiss Federal Laboratories, Lawrence Berkeley National Laboratory, and Jain University, with significant international collaborations in Europe, the USA, and Morocco. His research interests focus on hybrid nanoarchitectures, surface functionalization, perovskite electrocatalysts, and pilot-scale renewable hydrogen and ammonia production. Dr. Bora has established and managed research groups, supervised Ph.D. and Master’s students, and successfully led high-impact projects including the ENSUS Core Grant (700K USD), Research Start Grants, and the Green Ammonia Vision Project (1.5M Euro), demonstrating strong leadership and mentorship skills. He is an active peer reviewer for leading journals, editorial board member of Scientific Reports, and member of professional societies including the American Chemical Society. His awards and honors include the EMPA Research Award 2013, recognition as a Top 3% Scientist in Nanoscience and Nanotechnology, and multiple international travel grants and media coverages highlighting his work in green hydrogen. Dr. Bora’s research achievements, global collaborations, and leadership in sustainable energy technologies underscore his impact on the scientific community and society. Dr. Bora’s academic impact is further reflected in his growing recognition with 1,175 citations, 43 documents, and an h-index of 17, demonstrating his influential role in advancing nanomaterials, renewable energy, and green hydrogen research.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Bora, D. K., Braun, A., & Constable, E. C. (2013). “In rust we trust”. Hematite–the prospective inorganic backbone for artificial photosynthesis. Energy & Environmental Science, 6(2), 407–425.  (Cited by 262)

2. Braun, A., Sivula, K., Bora, D. K., Zhu, J., Zhang, L., Gratzel, M., Guo, J., … (2012). Direct observation of two electron holes in a hematite photoanode during photoelectrochemical water splitting. The Journal of Physical Chemistry C, 116(32), 16870–16875.  (Cited by 183)

3. Bora, D. K., Braun, A., Erat, S., Safonova, O., Graule, T., & Constable, E. C. (2012). Evolution of structural properties of iron oxide nanoparticles during temperature treatment from 250 °C–900 °C: X-ray diffraction and Fe K-shell pre-edge X-ray absorption study. Current Applied Physics, 12(3), 817–825.  (Cited by 105)

4. Milewska, A., Świerczek, K., Toboła, J., Boudoire, F., Hu, Y., Bora, D. K., Mun, B. S., … (2014). The nature of the nonmetal-metal transition in LixCoO2 oxide. Solid State Ionics, 263, 110.  (Cited by 94)

5. Bora, D. K., Braun, A., Erni, R., Fortunato, G., Graule, T., & Constable, E. C. (2011). Hydrothermal treatment of a hematite film leads to highly oriented faceted nanostructures with enhanced photocurrents. Chemistry of Materials, 23(8), 2051–2061.  (Cited by 76)

 

Ming Fan | Hydropower | Best Researcher Award

Published on by Green Energy Award

Dr. Ming Fan | Hydropower | Best Researcher Award

Research Scientist | Oak Ridge National Laboratory | United States 

Dr. Ming Fan is a Research Scientist at Oak Ridge National Laboratory (ORNL), where he leads cutting-edge research at the intersection of computational science, machine learning, and sustainable energy systems. He earned his Ph.D. in Geoenergy Engineering from Virginia Tech, after completing an M.S. in Petroleum and Natural Gas Engineering at West Virginia University and a B.S. in Resources Exploration Engineering at the China University of Mining and Technology. Professionally, Dr. Fan has developed an impressive portfolio of research spanning machine learning, deep learning, explainable AI, uncertainty quantification, and energy system modeling, with applications in climate prediction, water resource management, CO₂ and hydrogen storage, and geothermal energy. His expertise lies in advancing both theory and practical applications, integrating data-driven models with large-scale simulations to address critical challenges in energy transition and climate science. His research skills include high-performance computing, uncertainty-aware modeling, advanced geoscientific simulations, and AI-enabled decision support, which he has demonstrated in projects funded by the U.S. Department of Energy. Dr. Fan’s professional contributions extend beyond research through his roles as an active reviewer for leading journals, guest editor, NSF proposal panelist, and session organizer at major conferences such as AGU, ICDM, NeurIPS, and ICLR. His achievements have earned him prestigious recognitions, including being a Finalist for the ACM Gordon Bell Climate Modeling Prize and receiving the HPCwire Top Supercomputing Achievement Award. These awards highlight his ability to push the boundaries of computational geoscience while making tangible impacts on real-world energy and climate challenges. Dr. Fan’s academic impact is further reflected in his growing recognition with 640 citations, 38 documents, and an h-index of 15, demonstrating his influential role in advancing computational science, energy systems modeling, and sustainable resource management.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Fan, M., McClure, J., Han, Y., Li, Z., & Chen, C. (2018). Interaction between proppant compaction and single-/multiphase flows in a hydraulic fracture. SPE Journal, 23(4), 1290–1303. Cited by: 67

2. Wang, H., Dalton, L., Fan, M., Guo, R., McClure, J., Crandall, D., & Chen, C. (2022). Deep-learning-based workflow for boundary and small target segmentation in digital rock images using UNet++ and IK-EBM. Journal of Petroleum Science and Engineering, 215, 110596. Cited by: 61

3. Guo, R., Dalton, L. E., Fan, M., McClure, J., Zeng, L., Crandall, D., & Chen, C. (2020). The role of the spatial heterogeneity and correlation length of surface wettability on two-phase flow in a CO₂-water-rock system. Advances in Water Resources, 146, 103763. Cited by: 60

4. Fan, M., McClure, J., Han, Y., Ripepi, N., Westman, E., Gu, M., & Chen, C. (2019). Using an experiment/simulation-integrated approach to investigate fracture-conductivity evolution and non-Darcy flow in a proppant-supported hydraulic fracture. SPE Journal, 24(4), 1912–1928. Cited by: 57

5. Fan, M., Li, Z., Han, Y., Teng, Y., & Chen, C. (2021). Experimental and numerical investigations of the role of proppant embedment on fracture conductivity in narrow fractures (includes associated errata). SPE Journal, 26(1), 324–341. Cited by: 50

 

You Qiang | Nanotechnology for Renewable Energy | Best Faculty Award

Published on by Green Energy Award

Prof. Dr. You Qiang | Nanotechnology for Renewable Energy | Best Faculty Award

Professor | University of Idaho | United States

Dr. You Qiang, a distinguished Professor of Physics at the University of Idaho, has dedicated over four decades to pioneering research in nanoparticles and nanomaterials, with a particular focus on nanoclusters, nanocomposites, and their magnetic, optical, and transport properties. He received his B.S. in Engineering Physics from Hefei University of Technology, China, an M.S. in Physics from Harbin Institute of Technology and the Chinese Academy of Space Technology, and his Ph.D. in Physics from the University of Freiburg, Germany. His professional journey includes significant roles as Research Scientist and Senior Scientist at the University of Freiburg, Research Assistant Professor at the University of Nebraska-Lincoln, and since 2002, a progressive career from Assistant to Full Professor at the University of Idaho, where he also holds an adjunct appointment in Nuclear Engineering. Dr. Qiang’s research interests lie in the synthesis and characterization of advanced nanomaterials and their application to nuclear energy, radiation detection, and radioactive waste separation, integrating fundamental physics with practical technological solutions. His research skills span experimental synthesis, advanced spectroscopy, ion irradiation studies, and nanoscale materials characterization, contributing to high-impact publications in JACS, Nanoscale, Environmental Science & Technology, Advanced Functional Materials, and Journal of Physical Chemistry C. Beyond his scholarly output, he has demonstrated strong leadership as President of the Idaho Academy of Science and Engineering, organizer and chair of multiple international conferences, and editorial board member for leading journals. His dedication to mentorship has been recognized with multiple Alumni Awards for Excellence in Graduate Student Mentorship, underscoring his commitment to training the next generation of scientists. Dr. Qiang’s academic impact is substantial, with his growing recognition reflected in 2,906 citations, 97 documents, and an h-index of 27, demonstrating his influential role in advancing nanomaterials and nuclear energy research.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Haberland, H., Mall, M., Moseler, M., Qiang, Y., Reiners, T., & Thurner, Y. (1994). Filling of micron‐sized contact holes with copper by energetic cluster impact. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, 12(5), 2925–2930. Cited by: 540

2. Wang, C. M., Baer, D. R., Thomas, L. E., Amonette, J. E., Antony, J., & Qiang, Y. (2005). Void formation during early stages of passivation: Initial oxidation of iron nanoparticles at room temperature. Journal of Applied Physics, 98(9), 094308. Cited by: 331

3. Wang, C., Baer, D. R., Amonette, J. E., Engelhard, M. H., Antony, J., & Qiang, Y. (2009). Morphology and electronic structure of the oxide shell on the surface of iron nanoparticles. Journal of the American Chemical Society, 131(25), 8824–8832. Cited by: 290

4. Qiang, Y., Antony, J., Sharma, A., Nutting, J., Sikes, D., & Meyer, D. (2006). Iron/iron oxide core-shell nanoclusters for biomedical applications. Journal of Nanoparticle Research, 8(3), 489–496. Cited by: 262

5. Baer, D. R., Amonette, J. E., Engelhard, M. H., Gaspar, D. J., Karakoti, A. S., Kuchibhatla, S. V. N. T., & Qiang, Y. (2008). Characterization challenges for nanomaterials. Surface and Interface Analysis, 40(3–4), 529–537. Cited by: 189

Christian Idogho | Solar Energy | Best Researcher Award

Published on by Green Energy Award

Mr. Christian Idogho | Solar Energy | Best Researcher Award

Researcher | University of Vermont | United States

Mr. Christian Idogho is a Ph.D. Candidate in Materials Science at the University of Vermont, where he focuses on semiconductor thin-film growth, materials characterization, and renewable energy systems. He earned a Bachelor of Engineering in Mechanical Engineering from the University of Agriculture, Makurdi (2020) and a Diploma in Chemical Engineering from Auchi Polytechnic. His professional and research experience spans multiple institutions and international collaborations, including advanced thin-film deposition projects using CVD, sputtering, and pulsed-laser deposition, as well as in-situ X-ray scattering studies at Brookhaven National Laboratory. He has also contributed to renewable energy forecasting research using machine learning at the University of Nigeria, Nsukka, and held teaching assistantships at both the University of Vermont and Auchi Polytechnic, mentoring students in physics and core engineering subjects. His research interests include semiconductor thin-film growth, thermoelectric materials, machine learning for clean energy forecasting, renewable energy systems, and advanced materials characterization techniques such as XRD, SEM, AFM, and ellipsometry. Mr. Idogho’s research skills cover a wide spectrum, including COMSOL Multiphysics, MATLAB, Python, CAD tools (SolidWorks, Autodesk Inventor), and simulation of photovoltaic and thermoelectric systems. His awards and honors include the Best Researcher Award in Machine Learning (2025), Best Undergraduate Thesis Award (2020), and the Olive Real Estate Science and Engineering Scholarship. He is also an active reviewer for journals such as Energy Research and Clean Energy and maintains memberships in Sigma Xi, the Association for Iron & Steel Technology (AIST), Material Advantage, NSBE, and Black in AI. Mr. Idogho’s contributions through publications in Energy Science & Engineering, Energies, and Unconventional Resources underscore his growing reputation in clean energy and advanced materials. With his vision, technical expertise, and commitment to international collaboration, he is positioned to become a global leader in sustainable energy materials and semiconductor research. Mr. Idogho’s growing academic impact is reflected in 21 citations, 4 documents, and an h-index of 1, demonstrating his emerging influence in materials science and renewable energy research.

Profiles: Google Scholar | Scopus | ORCID | LinkedIn

Featured Publications

1. Maduabuchi, C., Nsude, C., Eneh, C., Eke, E., Okoli, K., Okpara, E., & Idogho, C. (2023). Renewable energy potential estimation using climatic-weather-forecasting machine learning algorithms. Energies, 16(4), 1603. Cited by: 25

2. Onuh, P., Ejiga, J. O., Abah, E. O., Onuh, J. O., Idogho, C., & Omale, J. (2024). Challenges and opportunities in Nigeria’s renewable energy policy and legislation. World Journal of Advanced Research and Reviews, 23(2), 2354–2372.  Cited by: 15

3. Idoko, P. I., Ezeamii, G. C., Idogho, C., Peter, E., Obot, U. S., & Iguoba, V. A. (2024). Mathematical modeling and simulations using software like MATLAB, COMSOL and Python. Magna Scientia Advanced Research and Reviews, 12(2), 62–95. Cited by: 6

4. Maduabuchi, C., Nsude, C., Eneh, C., Eke, E., Okoli, K., Okpara, E., & Idogho, C. (2023). Renewable energy potential estimation using climatic-weather-forecasting machine learning algorithms. Energies, 16(4), 1603.  Cited by: 3

5. Idogho, C., Abah, E. O., Onuh, J. O., Harsito, C., Omenka, K., Samuel, A., Ejila, A., & Idoko, I. P. (2025). Machine learning-based solar photovoltaic power forecasting for Nigerian regions. Energy Science & Engineering, 13(4), 1922–1934. Cited by: 1

Vahed Ghiasi | Renewable Energy | Pioneer Researcher Award

Published on by Green Energy Award

Assist. Prof. Dr. Vahed Ghiasi | Renewable Energy | Pioneer Researcher Award

Assistant Professor | Malayer university | Iran

Dr. Vahed Ghiasi is an accomplished civil and geotechnical engineer with a Ph.D. in Geotechnical and Geological Engineering from University Putra Malaysia (2012), where his research focused on the effects of weak rock geomechanical properties on tunnel stability. He currently serves as Assistant Professor at the Faculty of Civil and Architecture Engineering, Malayer University, Iran, with extensive experience in supervising graduate students, managing large-scale research projects, and contributing to both national and international engineering initiatives. His professional expertise encompasses tunnel engineering, soil-structure interaction, foundation engineering, advanced soil mechanics, and landslide hazard assessment, supported by practical work in seismic and earth dam engineering. Dr. Ghiasi has led numerous research projects, including international collaborations on landslide hazard mapping using neural networks and fuzzy logic, while publishing over 130 peer-reviewed articles in high-impact journals such as SN Applied Sciences, Results in Engineering, Geomechanics and Engineering, and Natural Hazards. He is also an active contributor to the global scientific community, serving on editorial boards for journals like SN Applied Sciences and Applied Engineering and Technology, and reviewing for more than 20 international journals. His research interests include geotechnical design, tunnel stability analysis, landslide risk assessment, soil improvement, and advanced numerical modeling techniques, utilizing software such as PLAXIS, PHASE 2 FEM, and FDM. Dr. Ghiasi’s professional involvement extends to memberships in prominent societies including SEAGS, IGS, ITA-AITES, ASCE, and IEM, and he has been recognized with awards such as the Most Outstanding Iranian Student in Malaysia (2011) and Superior Researcher of the Faculty of Civil Engineering, Malayer University (2019–2023). His work demonstrates a commitment to advancing geotechnical engineering knowledge, mentoring future engineers, and contributing to resilient infrastructure development. Dr. Ghiasi’s growing academic impact is reflected in 316 citations, 45 documents, and an h-index of 11, demonstrating his sustained influence in geotechnical engineering research.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Safaei, M., Omar, H., Huat, B. K., Yousof, Z. B. M., & Ghiasi, V. (2011). Deterministic rainfall induced landslide approaches, advantage and limitation. Electronic Journal of Geotechnical Engineering, 16, 1619–1650. Cited by 47

2. Mafian, S., Huat, B. B. K., & Ghiasi, V. (2009). Evaluation on root theories and root strength properties in slope stability. European Journal of Scientific Research, 30(4), 594–607. Cited by 43

3. Ghiasi, V., & Koushki, M. (2020). Numerical and artificial neural network analyses of ground surface settlement of tunnel in saturated soil. SN Applied Sciences, 2(5), 939. Cited by 42

4. Kazemian, S., Prasad, A., Huat, B. B. K., Ghiasi, V., & Ghareh, S. (2012). Effects of cement–sodium silicate system grout on tropical organic soils. Arabian Journal for Science and Engineering, 37(8), 2137–2148. Cited by 38

5. Safaei, M., Omar, H., Yousof, Z. B. M., & Ghiasi, V. (2010). Applying geospatial technology to landslide susceptibility assessment. Electronic Journal of Geotechnical Engineering, 15(G), 677–696. Cited by 31

 

Ahmet Elbir | Renewable Energy | Best Researcher Award

Published on by Green Energy Award

Dr. Ahmet Elbir | Renewable Energy | Best Researcher Award

Süleyman Demirel University | Turkey

Dr. Ahmet Elbır, Ph.D. in Energy Systems from Süleyman Demirel University (2021), is a distinguished academic and researcher specializing in thermodynamic systems, renewable energy, and sustainable energy optimization. His educational background includes multiple degrees in Mechanical Engineering and Energy Systems Engineering, culminating in advanced research on transcritical CO₂ heat pumps and ground-source heat pump thermodynamics. Professionally, he serves as a Lecturer at Süleyman Demirel University’s Renewable Energy Research Center (YEKARUM), contributing to national and international research projects, including biogas reactor design and hybrid energy storage systems. His research interests encompass energy and exergy analysis, thermodynamic cycle optimization (Kalina, ORC, Brayton, and Rankine cycles), AI-assisted energy modeling, phase-change materials for energy storage, and sustainable cooling and heating technologies. Dr. Elbır possesses strong research skills in experimental and theoretical thermodynamic analysis, Python and AI-based simulation, fuzzy logic modeling, energy system optimization, and environmental impact assessment of industrial processes. His extensive publication record includes articles in top-tier journals such as Applied Thermal Engineering, Journal of Building Engineering, Environmental Progress & Sustainable Energy, and multiple international conference proceedings, alongside chapters in scientific books on renewable energy and thermodynamic systems. He has also contributed to editorial work at YEKARUM and actively mentors students in energy research projects. Recognized for his scientific contributions, Dr. Elbır has received accolades for innovative approaches in energy efficiency and sustainable system design. His leadership in research, academic service, and community engagement underscores his commitment to advancing renewable energy solutions and mentoring the next generation of engineers. Dr. Elbır’s growing academic impact is reflected in 12 citations, 18 documents, and an h-index of 2, demonstrating his sustained influence in energy systems and renewable energy research.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

1. Akarslan, K. F., Elbır, A., & Şahin, M. E. (2023). Wool drying process in heat-pump-assisted dryer by fuzzy logic modelling. Thermal Science, 27(4 Part B), 3043–3050. Cited by 6

2. Öztürk, M., Elbır, A., & Özek, N. (2011). Akdeniz bölgesine gelen güneş radyasyonunun ekserji analizi. In Proc. 6th International Advanced Technologies Symposium (IATS’11). Cited by 6

3. Öztürk, M., Elbır, A., Özek, N., & Yakut, A. K. (2011). Güneş hidrojen üretim metotlarının incelenmesi. 6th International Advanced Technologies Symposium (IATS’11), 16–18. Cited by 5

4. Elbır, A. (2010). Toprak kaynaklı ısı pompasının termodinamik analizi. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü. Cited by 5

5. Elbır, A., Kodaloğlu, F. A., Üçgül, İ., & Şahin, M. E. (2022). Thermodynamic analysis of refrigerants used in ORC-VCC combined power systems for low temperature heat sources. Thermal Science, 26(4 Part A), 2855–2863. Cited by 4

Jianhua Zhou | Solar Energy | Best Researcher Award

Published on by Green Energy Award

Prof. Dr. Jianhua Zhou | Solar Energy | Best Researcher Award

Professor | Guilin University of Electric Technology | China

Prof. Jianhua Zhou, a distinguished scholar in materials science and engineering, currently serves as a Professor at the School of Materials Science and Engineering, Guilin University of Electronic Technology. He earned his B.S. in Applied Electrochemistry, M.S. in Applied Chemistry, and Ph.D. in Materials Processing Engineering from Nanjing University of Aeronautics and Astronautics, followed by a postdoctoral fellowship at Nagoya University, Japan. His professional career includes roles as Assistant Professor at the Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, Lecturer, Associate Professor, and now full Professor at Guilin University of Electronic Technology. Prof. Zhou’s primary research interests focus on solar steam generation, thermoelectric conversion materials, lithium-ion batteries, and photothermal–thermoelectric hybrid systems. His research skills span advanced materials design, interfacial regulation, nanostructure engineering, and the development of sustainable energy harvesting and water treatment systems. He has led and participated in multiple prestigious projects funded by the National Natural Science Foundation of China, the Guangxi Science Foundation for Distinguished Young Scholars, and other national programs, advancing fundamental understanding and applications in renewable energy. Prof. Zhou has published 107 SCI/Scopus-indexed papers in leading international journals and conferences, authored the book Fundamentals of Functional Materials and Devices, and holds 12 granted patents with 20 under review. He also serves on the editorial boards of Nano Materials Science, Green Carbon, and Eco Energy, and actively contributes to international collaborations, student mentorship, and professional platforms, demonstrating both academic leadership and community engagement. His contributions have been recognized through funded research awards and professional memberships, reflecting his commitment to advancing renewable energy technologies for global sustainability. Prof. Zhou’s growing academic impact is reflected in 4,039 citations, 122 documents, and an h-index of 35, demonstrating his significant and sustained influence in materials science and renewable energy research.

Profiles: Scopus | ORCID | ResearchGate 

Featured Publications

1. Zhou, J., et al. (2025). Solar-driven interfacial evaporation coupling with photo-Fenton of floating Prussian blue/polypyrrole/paper film for volatile organic compounds-containing wastewater treatment. Separation and Purification Technology. Citations: 5

2. Zhou, J., et al. (2025). High-performance NiCu hydroxide self-supported electrode as a bifunctional catalyst for AOR and OER. Battery Energy. Citations: 2

3. Zhou, J., et al. (2025). Photo-Fenton catalyst embedded in photothermal aerogel for efficient solar interfacial water evaporation and purification. Green Carbon. Citations: 13

4. Zhou, J., et al. (2025). Carbon–MoS₂ composite loaded in poly(vinyl alcohol)–chitosan aerogel as dual-functional photothermal material for efficient water evaporation and thermal storage under solar irradiation. ACS Applied Polymer Materials.

5. Zhou, J., et al. (2025). Multicolor electrochromic electrodes with infrared emittance modulation based on WO₃ photonic crystal. Journal of Physics D: Applied Physics.