Yanfei Li | Green Hydrogen | Best Researcher Award

Published on by Green Energy Award

Assoc. Prof. Dr. Yanfei Li | Green Hydrogen | Best Researcher Award

Associate Professor | Shenzhen Technology University | China

Dr. Yanfei Li is a prominent scholar in energy economics, industrial policy, and technological innovation, with research spanning the full spectrum of Asia’s low-carbon transition. His work covers hydrogen energy systems, new energy vehicle deployment, green fuel trade, regional gas markets, and cross-border electricity market design, while also addressing broader themes such as technological catch-up, industrial upgrading, and innovation policy in emerging economies. Dr. Li has played significant roles in various interdisciplinary and policy-driven research initiatives, collaborating with leading institutions, regional forums, and intergovernmental organizations across East and Southeast Asia. His contributions include formulating ASEAN’s hydrogen energy development roadmap, assessing large-scale green hydrogen demonstration projects, evaluating China’s green hydrogen trade potential, and analyzing the economic value and carbon mitigation impacts of hydrogen fuel cell vehicles. He has also undertaken extensive studies on integrated regional electricity systems, market mechanisms for multilateral power trade, energy infrastructure planning, and strategic pathways for achieving sustainable industrial competitiveness. Dr. Li’s scholarship is characterized by rigorous quantitative modelling, techno-economic assessment, and policy-oriented analysis, consistently bridging academic research with real-world energy planning and strategic decision-making. His academic output includes 29 peer-reviewed journal articles, books, and institutional reports, many published in high-impact outlets such as Energy Policy, International Journal of Hydrogen Energy, Energy Economics, Energy for Sustainable Development, Renewable Energy, and Journal of Cleaner Production. Several of his publications have been recognized as ESI Highly Cited Papers and ESI Hot Papers, reflecting their influence on both scholarly debates and policymaking communities. His research continues to shape regional discourse on hydrogen commercialization, sustainable transport transitions, green industrial development, and long-term energy security strategies across Asia. Dr. Li’s academic influence and research productivity are reflected in his metrics 1,235 citations, 29 documents, and an h-index of 13, underscoring his substantial contributions to global energy and technology policy research.

Profiles: Google Scholar | Scopus | ORCID 

Featured Publications

1. Li, Y., & Taghizadeh-Hesary, F. (2022). The economic feasibility of green hydrogen and fuel cell electric vehicles for road transport in China. Energy Policy, 160, 112703.

2. Shi, X., Liao, X., & Li, Y. (2020). Quantification of fresh water consumption and scarcity footprints of hydrogen from water electrolysis: A methodology framework. Renewable Energy, 154, 786–796.

3. Li, Y., & Kimura, S. (2021). Economic competitiveness and environmental implications of hydrogen energy and fuel cell electric vehicles in ASEAN countries: The current and future scenarios. Energy Policy, 148, 111980.

4. Khanna, R. A., Li, Y., Mhaisalkar, S., Kumar, M., & Liang, L. J. (2019). Comprehensive energy poverty index: Measuring energy poverty and identifying micro-level solutions in South and Southeast Asia. Energy Policy, 132, 379–391.

5. Li, Y., Shi, X., & Phoumin, H. (2022). A strategic roadmap for large-scale green hydrogen demonstration and commercialisation in China: A review and survey analysis. International Journal of Hydrogen Energy, 47(58), 24592–24609.

Monica Alvarez Manso | Green Hydrogen | Editorial Board Member

Published on by Green Energy Award

Ms. Monica Alvarez Manso | Green Hydrogen | Editorial Board Member

Universidad de León | Spain

Mónica Alvarez Manso is a researcher and energy engineering specialist whose work spans green hydrogen technologies, bioenergy systems, renewable energy integration, and sustainable water resource management, with extensive experience in designing, coordinating, and executing complex energy and infrastructure projects involving electrolysis-based hydrogen production, advanced water purification and demineralization systems, biomethane upgrading, and large-scale power generation and high-voltage substation facilities. Her professional contributions include implementing energy efficiency and industrial sustainability strategies for major international organizations, designing renewable energy systems for rural electrification in Africa, and developing innovative water management and pumping solutions across Europe. As a PhD candidate at the University of León and Vice-Dean of the Official College of Technical Mining Engineers and Mining and Energy Graduates, she plays a strategic leadership role in driving technological innovation, promoting sustainable engineering practices, and leading multidisciplinary teams in the mining, energy, and advanced materials sectors. She has contributed to competitive research initiatives such as ECOH2JET and BIOWATERING and has extensive experience in preparing and managing European and national funding proposals under Horizon 2020, LIFE, PRIMA, Eurostars, and the Innovation Fund. Her technological innovations include the registration of HYDROGREENSIM, a simulator for optimizing water purification processes in renewable hydrogen plants, and the patented VIRTUAL ART PROJECTION technique. Through collaborations with academic institutions, industry partners, and innovation-driven organizations, she has advanced scientific dissemination through publications, conferences, and the development of practical engineering tools, with her work collectively supporting the transition to low-carbon systems, circular bioeconomy solutions, and sustainable industrial development at regional and global scales.

Profiles: Google Scholar 

Featured Publications

1. Álvarez-Manso, M., Búrdalo-Salcedo, G., & Fernández-Raga, M. (2025). Classification framework for hydrological resources for sustainable hydrogen production with a predictive algorithm for optimization. Hydrogen, 6(3), 54.

2. Álvarez-Manso, M. (2002). Estudio de viabilidad de una instalación de energía eléctrica combinada con un proceso de termólisis.

Brenda Yanin Azcárraga Salinas | Bioenergy | Best Researcher Award

Published on by Green Energy Award

Prof. Brenda Yanin Azcárraga Salinas | Bioenergy | Best Researcher Award

PhD student | Instituto Politécnico Nacional | Mexico

Dr. Brenda Yanin Azcárraga Salinas is a distinguished biotechnology researcher specializing in microalgal bioprocesses, environmental biotechnology, and the circular bioeconomy. Her work focuses on transforming agro-industrial and livestock residues into biodiesel, bioactive compounds, and biostimulants, contributing to sustainable energy production and waste valorization. With a strong foundation in analytical chemistry and applied biotechnology, she combines precision in techniques such as HPLC, GC-MS, FTIR, and UV-Vis spectroscopy with innovative approaches to green process design. Her research explores the production of value-added compounds from Scenedesmus obliquus and Chlorella vulgaris cultivated in organic waste-based media, the generation of phytohormones through anaerobic digestion, and the development of biofertilizers derived from microalgal biomass. She has authored and co-authored multiple peer-reviewed publications on renewable bioenergy, green chemistry, and sustainable agriculture, collaborating with national and institutional research networks to advance environmental biotechnology and clean energy innovations. Through her interdisciplinary work, she promotes the development of circular, low-carbon solutions aligned with global sustainability goals. Dr. Azcárraga’s academic excellence and research influence are reflected in her growing global recognition, with 1,117 citations, 33 publications, and an h-index of 9, underscoring her impactful contributions to the advancement of environmental biotechnology and circular bioeconomy.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate 

Featured Publications

1. Solís, M., Solís, A., Pérez, H. I., Manjarrez, N., & Flores, M. (2012). Microbial decolouration of azo dyes: A review. Process Biochemistry, 47(12), 1723–1748. Cited by: 1,026

2. Butrón, E., Juárez, M. E., Solis, M., Teutli, M., González, I., & Nava, J. L. (2007). Electrochemical incineration of indigo textile dye in filter-press-type FM01-LC electrochemical cell using BDD electrodes. Electrochimica Acta, 52(24), 6888–6894. Cited by: 101

3. Solís-Oba, M., Ugalde-Saldívar, V. M., González, I., & Viniegra-González, G. (2005). An electrochemical–spectrophotometrical study of the oxidized forms of the mediator 2,2′-azino-bis-(3-ethylbenzothiazoline-6-sulfonic acid) produced by immobilized laccase. Journal of Electroanalytical Chemistry, 579(1), 59–66. Cited by: 97

4. Solís-Oba, M., Teniza-García, O., Rojas-López, M., & Delgado-Macuil, R. (2011). Application of infrared spectroscopy to the monitoring of lactose and protein from whey after ultra and nano filtration process. Journal of the Mexican Chemical Society, 55(3), 190–193. Cited by: 37

5. Castro Rivera, R., Solís Oba, M. M., Chicatto Gasperín, V., & Solís Oba, A. (2020). Producción de biogás mediante codigestión de estiércol bovino y residuos de cosecha de tomate (Solanum lycopersicum L.). Revista Internacional de Contaminación Ambiental, 36(3), 529–539. Cited by: 34

Dr. Brenda Yanin Azcárraga Salinas advances sustainable biotechnology by transforming organic waste into renewable energy and high-value bioproducts, fostering circular bioeconomy solutions that mitigate environmental impact. Her research bridges science and industry, driving global innovation in green technologies and sustainable resource management.

Tao Sun | Renewable Energy Systems | Best Researcher Award

Published on by Green Energy Award

Prof. Tao Sun | Renewable Energy Systems | Best Researcher Award

Professor | Northwest University | China

Dr. Tao Sun is a distinguished Professor at the School of Chemical Engineering, Northwest University, China, widely recognized for his pioneering contributions to the fields of energy conversion and environmental catalysis. His research focuses on the rational design and synthesis of nanostructured and single-atom materials for electrocatalysis, photocatalysis, water splitting, fuel cells, metal–air batteries, and CO₂ reduction. By integrating advanced concepts in atomic-level engineering, heterojunction construction, and defect chemistry, he has developed highly efficient and durable materials that address pressing global challenges in clean energy generation and pollutant degradation. Dr. Sun has authored more than ninety peer-reviewed publications, including numerous papers as first or corresponding author in internationally renowned journals such as Nature Nanotechnology, Advanced Materials, Advanced Functional Materials, ACS Nano, ACS Catalysis, and Advanced Science. His research has achieved substantial global recognition, reflected by thousands of citations and a strong h-index, underscoring his scientific influence and leadership in catalysis and materials chemistry. In addition to his prolific research output, Dr. Sun serves as a reviewer for over fifty leading international journals and contributes to the scholarly community as a youth editor for EcoEnergy, Advanced Powder Materials, and Carbon Energy. His work bridges fundamental science and applied technology, offering innovative strategies for sustainable energy conversion, carbon-neutral pathways, and environmental protection. Through his commitment to advancing catalyst design and clean energy technologies, Dr. Tao Sun continues to make impactful contributions that shape the future of green chemistry and sustainable materials engineering. Dr. Tao Sun’s academic excellence is reflected in his global research influence, with 6,780 citations, 94 publications, and an h-index of 38, highlighting his leading role in the field of materials and energy science.

Profiles: Scopus | ORCID

Featured Publications

1. Sun, T., et al. (2025). Photocatalytic H₂ evolution over Ni₃(PO₄)₂/twinned-Cd₀.₅Zn₀.₅S S-scheme homo-heterojunction using degradable plastics as electron donors. Journal of Materials Science and Technology. Citations: 8

2. Sun, T., et al. (2025). Efficient hydrogen production coupled with polylactic acid plastic electro-treatment over a CoFe LDH/MoSe₂/NixSey/NF heterostructure electrocatalyst. ACS Sustainable Chemistry & Engineering. Citations: 4

3. Sun, T., et al. (2025). Co₃S₄/MnS p–p heterojunction as a highly efficient electrocatalyst for water splitting and electrochemical oxidation of organic molecules. Journal of Colloid and Interface Science. Citations: 10

4. Sun, T., et al. (2025). Efficient photocatalytic H₂ evolution over SnS₂/twinned Mn₀.₅Cd₀.₅S hetero-homojunction with double S-scheme charge transfer routes. Journal of Materials Science and Technology. Citations: 31

5. Sun, T., et al. (2025). Tuning interfacial charge transfer for efficient photodegradation of tetracycline hydrochloride over Ti₃C₂/Bi₁₂O₁₇Cl₂ Schottky heterojunction and theoretical calculations. Applied Surface Science. Citations: 16

Dr. Tao Sun’s pioneering research in photocatalysis and electrocatalysis advances sustainable hydrogen production and plastic waste valorization, bridging clean energy generation with environmental remediation. His innovative heterostructure designs drive global progress toward carbon-neutral technologies and circular energy systems, fostering transformative impact across science, industry, and society.

Zhenghao Yang | Carbon Neutral Technologies | Young Scientist Award

Published on by Green Energy Award

Dr. Zhenghao Yang | Carbon Neutral Technologies | Young Scientist Award

Doctor | Air Force Engineering University | China

Dr. Zhenghao Yang is a distinguished researcher at the Air Force Engineering University, Xi’an, China, specializing in advanced combustion systems, energy conversion efficiency, and sustainable propulsion technologies. With 16 publications, 113 citations, and an h-index of 6, he has established a growing academic presence in renewable and green energy research. His work focuses on optimizing combustion and energy conversion mechanisms under specialized and extreme operating conditions, particularly for high-altitude applications in aerospace systems. A notable example of his research is the study titled “Optimization research of combustion and energy conversion efficiency of elliptical rotary engine at high altitude using green hydrogen fuel” (Renewable Energy, 2026), which exemplifies his innovative efforts in integrating hydrogen-based propulsion technologies as sustainable alternatives to traditional fossil-fuel engines. His expertise encompasses computational fluid dynamics (CFD), thermodynamic modeling, performance optimization, and hybrid energy system integration, contributing to advancements in energy efficiency and emission reduction. Collaborating with 18 co-authors across various institutions, Dr. Yang demonstrates strong interdisciplinary engagement that connects mechanical engineering, renewable energy, and environmental sustainability. His research holds significant relevance for both aviation and defense sectors, addressing global challenges related to clean energy utilization, decarbonization, and eco-efficient propulsion. Through his continued exploration of hydrogen-fueled engines and high-performance energy systems, Dr. Zhenghao Yang contributes meaningfully to the worldwide transition toward sustainable energy technologies and low-carbon innovation, positioning himself as a promising leader in the field of green propulsion research.

Profile: Scopus | ORCID | ResearchGate

Featured Publications

1. Yang, Z., Jia, G., Fang, Z., Du, Y., He, G., & Wang, Z. (2026). Optimization research of combustion and energy conversion efficiency of elliptical rotary engine at high altitude using green hydrogen fuel. Renewable Energy.

2. Yang, Z., Du, Y., Jia, G., Gao, X., Fang, Z., He, G., & Wang, Z. (2025). Clean combustion of a hydrogen-doped elliptical rotary engine based on turbulent jet ignition: Synergistic enhancement of thermodynamic and emission performance via flow field coupling. Energy Conversion and Management.

3. Yang, Z., Du, Y., Jia, G., Gao, X., He, G., & Wang, Z. (2025). Effect of multi-hole passive jet ignition on thermodynamic and combustion characteristics of hydrogen-doping elliptical rotary engine in high-altitude environment. Energy.

4. Yang, Z., Jia, G., Du, Y., Fang, Z., Gao, X., He, G., & Wang, Z. (2025). Investigation of high-tumble chamber of ammonia-hydrogen fueled elliptical rotary engine based on turbulence and combustion characteristics. Fuel.

5. Du, Y., Yang, Z., Zhang, Z., Wang, Z., He, G., Wang, J., & Zhao, P. (2024). Control strategy optimization exploration of a novel hydrogen-fed high-efficiency X-type rotary engine hybrid power system by coupling with recuperative organic Rankine cycle. Energy.

Dr. Zhenghao Yang’s research advances the development of clean, high-efficiency hydrogen-fueled rotary engines, contributing to global decarbonization, sustainable aviation, and next-generation propulsion technologies. His innovative work bridges energy science and engineering, fostering breakthroughs that support a greener and more energy-efficient future for society and industry alike.

Mahdi Jahami | Green Hydrogen | Green Hydrogen Production Award

Published on by Green Energy Award

Dr. Mahdi Jahami | Green Hydrogen | Green Hydrogen Production Award

Professor | The University of Alabama | United States

Dr. Mahdi Jahami is a dedicated researcher in the Department of Mechanical Engineering, Tuscaloosa, United States, whose work focuses on renewable energy systems, sustainable hydrogen production, and life cycle assessment (LCA). His research aims to develop environmentally responsible energy conversion technologies by integrating renewable resources with innovative modeling and optimization frameworks. Dr. Jahami’s scholarly contributions emphasize reducing greenhouse gas emissions through cleaner production pathways and advancing the global transition toward a low-carbon, sustainable energy future. His notable publication, “Life cycle assessment of SMR and Electrified-SMR with renewable energy systems: Projecting emissions and optimizing hydrogen production for California’s goals,” provides a comprehensive assessment of hydrogen generation via Steam Methane Reforming (SMR) and Electrified-SMR systems powered by renewable energy. The study delivers significant insights into optimizing hydrogen production efficiency while aligning with ambitious environmental and policy objectives. With 9 citations, 1 publication, and a Scopus h-index of 1, Dr. Jahami’s research demonstrates growing academic recognition and influence in the fields of clean energy and carbon mitigation. Through collaboration with international co-authors, he applies an interdisciplinary approach combining techno-economic analysis, emissions modeling, and renewable energy integration to design efficient, sustainable hydrogen systems. Beyond academic contributions, his work holds strong societal impact by supporting global initiatives for carbon neutrality, clean technology advancement, and sustainable industrial transformation. Through rigorous research and innovation, Dr. Jahami continues to contribute to the evolution of green engineering solutions, reinforcing the vital role of hydrogen technologies in achieving net-zero emissions and driving global energy sustainability.

Profiles: Scopus | ResearchGate | LinkedIn

Featured Publications

1. Jahami, M. (2025). Life cycle assessment of SMR and Electrified-SMR with renewable energy systems: Projecting emissions and optimizing hydrogen production for California’s 2035 goals. Renewable Energy. Cited by 9.

Dr. Mahdi Jahami’s research advances the global transition toward sustainable hydrogen production and renewable energy integration, providing innovative life cycle–based solutions that reduce emissions and support carbon-neutral industrial systems. His work bridges engineering innovation and environmental responsibility, driving progress toward a cleaner, more resilient energy future.

Mohsin Raza | Renewable Energy | Innovation Research Award

Published on by Green Energy Award

Dr. Mohsin Raza | Renewable Energy | Innovation Research Award

Post Doctoral Research Associate | University of Sharjah | United Arab Emirates

Dr. Mohsin Raza, Ph.D., is a distinguished researcher specializing in biomass valorization, bioenergy, green chemistry, and nanocellulose production. He is currently advancing research in sustainable material science and bio-based innovations as a Postdoctoral Research Associate at a leading research institute. His academic background and scientific expertise center on transforming agricultural and lignocellulosic wastes into high-value materials through green and energy-efficient processes. Dr. Raza’s work integrates biomass conversion technologies, lignin recovery, nanocellulose extraction, and bio-based thermal insulation development, emphasizing environmental sustainability and circular economy principles. His core research skills include thermochemical processing, biopolymer synthesis, pyrolysis kinetics, and the use of natural deep eutectic solvents for eco-friendly material synthesis. Highly skilled in advanced analytical techniques such as TGA, DSC, XRD, FTIR, GC-MS, SEM, and TEM, he also demonstrates excellence in intellectual property development, holding multiple granted U.S. patents and additional applications in the fields of biomass valorization and green solvent technologies. As a prolific author with extensive publications in high-impact Q1 journals from leading publishers, Dr. Raza’s research contributions have significantly advanced understanding in renewable energy systems, sustainable chemistry, and nanomaterial engineering. His work has been recognized through multiple innovation and sustainability awards, reflecting his leadership and creativity in promoting clean technologies. Through collaborative research and continuous innovation, Dr. Raza continues to shape the future of renewable materials and sustainable energy, contributing to global progress toward a circular bioeconomy, with a documented record of 994 citations, 28 publications, and an h-index of 14.

Profile: Google Scholar | Scopus | ORCID

Featured Publications

1. Inayat, A., & Raza, M. (2019). District cooling system via renewable energy sources: A review. Renewable and Sustainable Energy Reviews, 107, 360–373. Cited by: 221

2. Raza, M., Abu-Jdayil, B., Al-Marzouqi, A. H., & Inayat, A. (2022). Kinetic and thermodynamic analyses of date palm surface fibers pyrolysis using Coats–Redfern method. Renewable Energy, 183, 67–77. Cited by: 161

3. Raza, M., Inayat, A., Ahmed, A., Jamil, F., Ghenai, C., Naqvi, S. R., Shanableh, A., & Park, Y. K. (2021). Progress of the pyrolyzer reactors and advanced technologies for biomass pyrolysis processing. Sustainability, 13(19), 11061. Cited by: 148

4. Raza, M., Abu-Jdayil, B., Banat, F., & Al-Marzouqi, A. H. (2022). Isolation and characterization of cellulose nanocrystals from date palm waste. ACS Omega, 7(29), 25366–25379. Cited by: 102

5. Raza, M., & Abu-Jdayil, B. (2022). Cellulose nanocrystals from lignocellulosic feedstock: A review of production technology and surface chemistry modification. Cellulose, 29(2), 685–722. Cited by: 77

 

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.

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)

 

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