Tzu Hsuan Chiang | Energy | Best Researcher Award

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Prof. Tzu Hsuan Chiang | Energy | Best Researcher Award

professor at National United University, Taiwan

Prof. Tzu Hsuan Chiang is a distinguished researcher in energy engineering, specializing in electrocatalysis and hydrogen energy systems. She is currently a Professor at the Department of Energy Engineering at National United University, Taiwan. With a strong academic background and a commitment to advancing sustainable energy technologies, she has made significant contributions to the development of high-efficiency, low-cost electrocatalysts for water electrolysis. Her pioneering research in non-precious metal composite electrodes and scalable electrolysis technologies has helped bridge the gap between academia and industry. Through government-funded projects and collaborations with industry partners, she continues to drive innovation in green hydrogen production, contributing to the global transition toward clean energy solutions. Her work has led to multiple patents and technology transfers, further solidifying her reputation as a leading expert in the field.

Professional Profile

Education

Prof. Chiang earned her Ph.D. from National Yang Ming Chiao Tung University between 2002 and 2006, where she conducted groundbreaking research in materials science and electrocatalysis. Her doctoral studies laid the foundation for her expertise in the synthesis of metal oxides, Schiff base complexes, and heteroatom-doped catalysts, essential for improving electrochemical reactions. Her academic journey was marked by a strong focus on applied research, aiming to enhance energy conversion and storage technologies. The rigorous training and research experience she gained during her Ph.D. propelled her into a successful academic career, equipping her with the knowledge to tackle challenges in renewable energy. Her continuous pursuit of learning and interdisciplinary research has allowed her to stay at the forefront of scientific advancements in energy engineering.

Professional Experience

Prof. Chiang began her academic career as an Associate Professor at National United University in 2009, a position she held until 2015. During this period, she actively contributed to both teaching and research, mentoring students and advancing electrochemical energy technologies. In 2015, she took on a Visiting Scholar position at the University of Tokyo, where she expanded her research network and collaborated on cutting-edge hydrogen energy projects. Upon returning, she was promoted to Professor at National United University, where she continues to lead innovative research on electrocatalysis and green hydrogen production. Her extensive experience in academia and industry collaborations has positioned her as a key figure in energy sustainability, with her work influencing both scientific advancements and practical industrial applications.

Research Interest

Prof. Chiang’s research focuses on the development of high-performance electrocatalysts for the oxygen reduction reaction (ORR), hydrogen evolution reaction (HER), and oxygen evolution reaction (OER), which are critical for hydrogen fuel cells and water electrolysis. She specializes in designing cost-effective, durable materials for alkaline, acidic, and seawater electrolysis, aiming to enhance efficiency in hydrogen production. Her studies on Schiff base chelating ligands for non-precious metal composite electrodes have significantly improved electrocatalytic stability and activity. Additionally, she is involved in scaling up large-area alkaline electrolyzer modules, ensuring practical applications for industrial hydrogen production. Her interdisciplinary approach combines materials science, electrochemistry, and engineering, making her a leading researcher in next-generation sustainable energy solutions.

Awards and Honors

Prof. Chiang has received multiple awards for her contributions to energy research and electrochemical engineering. Her work has been recognized with government research grants, demonstrating the impact and importance of her studies in hydrogen energy. She has also been honored with patents and technology transfers, reflecting the practical applications of her innovations in industrial settings. Her contributions to academia have been acknowledged through invitations to international conferences and research collaborations, solidifying her reputation as a leader in electrochemical energy research. Through her dedication to sustainable energy solutions, she continues to inspire the next generation of researchers and engineers, leaving a lasting impact on the field of renewable energy.

Conclusion

Prof. Tzu Hsuan Chiang is a strong candidate for the Best Researcher Award due to her groundbreaking work in hydrogen energy, electrocatalysis, and industry-academia collaboration. Her ability to bridge scientific innovation with real-world applications makes her a leading figure in green energy research. However, enhancing global visibility and research diversification could further solidify her standing as the best candidate for the award.

Publications Top Noted

1. Trifunctional Electrocatalysts for Zn-Air Batteries and Water Splitting

  • Author(s): Chiang, Tzuhsuan; Chen, Yusi
  • Year: 2023
  • Journal: Catalysis Science and Technology
  • Citations: 1

2. Cerium Vanadium Oxide for Methanol Electrooxidation in Fuel Cells

  • Author(s): Chiang, Tzuhsuan; Rao, K. Narasimha; Hsu, Jiawei
  • Year: 2022
  • Journal: Electrocatalysis
  • Citations: 3

 

KeChrist Obileke | Energy | Best Researcher Award

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Dr. KeChrist Obileke | Energy | Best Researcher Award

Research Fellow at University of Fort Hare, South Africa

Dr. KeChrist Obileke is a distinguished researcher specializing in renewable energy, biofuels, and food processing technologies. Currently a Research Fellow at the University of Fort Hare, South Africa, he has extensive experience in energy conversion, biogas digesters, and microbial fuel cells for sustainable electricity generation. His work bridges multiple disciplines, including Chemical Engineering, Applied Physics, and Electrical Engineering, reflecting his passion for innovative energy solutions. Dr. Obileke has played a pivotal role in biogas technology deployment in South African rural communities, contributing to clean energy solutions. With an h-index of 19, his impactful research is widely recognized in scientific literature. Beyond research, he is an educator and mentor, teaching physics and engineering courses at both undergraduate and postgraduate levels. His dedication to academia, research, and sustainable development makes him a key figure in advancing renewable energy technologies for a greener future.

Professional Profile

Education

Dr. Obileke holds a PhD in Applied Physics (Renewable Energy-Biomass/Bioenergy) from the University of Fort Hare, South Africa (2019). His interdisciplinary academic background includes an M.Eng. in Chemical Engineering from the University of Benin, Nigeria (2011) and a B.Eng. in Chemical Engineering from the Federal University of Technology, Owerri, Nigeria (2007). Additionally, he completed a National Diploma in Electrical/Electronic Engineering at the Federal Polytechnic Nekede, Nigeria (2008). His studies have focused on renewable energy technologies, environmental sustainability, and industrial processes, with his PhD research contributing significantly to biogas digester development for efficient energy production. His academic achievements, combined with practical training, have enabled him to develop innovative solutions in energy, waste-to-energy conversion, and food processing. His commitment to research and education underscores his role as a leader in advancing clean energy technologies.

Professional Experience

Dr. Obileke has amassed diverse experience in both academia and industry. He began his career with industrial training at Niger Gas Limited and Agility Chemical & Allied Products Ltd, Nigeria, focusing on chemical processing and energy systems. He later served as a Physics Lecturer and Researcher at the University of Benin (2010–2012). His expertise in renewable energy systems led him to the University of Fort Hare, South Africa, where he has worked as a Renewable Energy Researcher, Postdoctoral Fellow, and now Research Fellow. He has also collaborated with the University of Birmingham, UK, on food processing and preservation projects. His professional journey showcases expertise in energy systems design, biofuel technology, and engineering education, while his contributions to community-based biogas digester installations reflect his commitment to sustainable development and technological innovation.

Research Interests

Dr. Obileke’s research focuses on renewable energy, biofuel production, and food processing technologies. His expertise lies in biomass gasification, anaerobic digestion, microbial fuel cells, and hybrid energy systems for efficient power generation. His PhD research led to the design and fabrication of high-density polyethylene (HDPE) biogas digesters, providing alternative solutions for sustainable biogas production. He is also interested in non-thermal food preservation technologies, exploring methods like radio-frequency heating, cold plasma, and pulsed light to enhance food safety and shelf-life. His work extends to environmental engineering, particularly in waste-to-energy conversion and optimizing bioenergy systems for practical applications. His interdisciplinary approach ensures that his research not only advances scientific knowledge but also contributes to real-world solutions in clean energy and food security.

Awards and Honors

Dr. Obileke’s contributions to renewable energy and environmental sustainability have earned him several recognitions. He is a Professional Physicist (Pr.Phys) accredited by the South African Institute of Physics (SAIP) and a member of the South African Institution of Chemical Engineers (SAIChE). His research excellence has been acknowledged through conference presentations, journal publications, and invitations to review editorial boards, including Bioprocess Engineering in Frontiers in Bioengineering and Biotechnology. His work on biogas digester systems has been presented at major conferences like SAIP, Renewable Energy Symposiums, and Global Change Conferences. He has also received certifications in Health, Safety, and Environmental (HSE) practices and occupational safety training. Through these accolades, Dr. Obileke continues to solidify his reputation as a leading researcher dedicated to sustainable energy innovations and environmental preservation.

Conclusion

Dr. KeChrist Obileke is a highly qualified and impactful researcher in renewable energy, biofuels, and food engineering. His strong academic record, interdisciplinary expertise, and community-driven research make him a strong candidate for the Best Researcher Award.

Publications Top Noted

1. Microbial Fuel Cells, a Renewable Energy Technology for Bio-Electricity Generation: A Mini-Review

  • Authors: Obileke KC, Onyeaka H, Meyer EL, Nwokolo N
  • Journal: Electrochemistry Communications 125, 107003
  • Year: 2021
  • Citations: 344

2. Minimizing Carbon Footprint via Microalgae as a Biological Capture

  • Authors: Onyeaka H, Miri T, Obileke KC, Hart A, Anumudu C, Al-Sharify ZT
  • Journal: Carbon Capture Science & Technology 1, 100007
  • Year: 2021
  • Citations: 245

3. Waste to Energy: A Focus on the Impact of Substrate Type in Biogas Production

  • Authors: Nwokolo N, Mukumba P, Obileke KC, Enebe M
  • Journal: Processes 8(10), 1224
  • Year: 2020
  • Citations: 126

4. Anaerobic Digestion: Technology for Biogas Production as a Source of Renewable Energy—A Review

  • Authors: Obileke KC, Nwokolo N, Makaka G, Mukumba P, Onyeaka H
  • Journal: Energy & Environment 32(2), 191-225
  • Year: 2021
  • Citations: 124

5. Current Research and Applications of Starch-Based Biodegradable Films for Food Packaging

  • Authors: Onyeaka H, Obileke KC, Makaka G, Nwokolo N
  • Journal: Polymers 14(6), 1126
  • Year: 2022
  • Citations: 114

6. A Cold Plasma Technology for Ensuring the Microbiological Safety and Quality of Foods

  • Authors: Nwabor OF, Onyeaka H, Miri T, Obileke K, Anumudu C, Hart A
  • Journal: Food Engineering Reviews 14(4), 535-554
  • Year: 2022
  • Citations: 75

7. Preventing Chemical Contaminants in Food: Challenges and Prospects for Safe and Sustainable Food Production

  • Authors: Onyeaka H, Ghosh S, Obileke K, Miri T, Odeyemi OA, Nwaiwu O, et al.
  • Journal: Food Control 155, 110040
  • Year: 2024
  • Citations: 70

8. Recent Advances in Radio Frequency, Pulsed Light, and Cold Plasma Technologies for Food Safety

  • Authors: Obileke KC, Onyeaka H, Miri T, Nwabor OF, Hart A, Al-Sharify ZT, et al.
  • Journal: Journal of Food Process Engineering 45(10), e14138
  • Year: 2022
  • Citations: 41

9. Design and Fabrication of a Plastic Biogas Digester for the Production of Biogas from Cow Dung

  • Authors: Obileke KC, Mamphweli S, Meyer EL, Makaka G, Nwokolo N
  • Journal: Journal of Engineering 2020(1), 1848714
  • Year: 2020
  • Citations: 38

10. Bioenergy from Bio-Waste: A Bibliometric Analysis of the Trend in Scientific Research from 1998–2018

  • Authors: Obileke KC, Onyeaka H, Omoregbe O, Makaka G, Nwokolo N, et al.
  • Journal: Biomass Conversion and Biorefinery
  • Year: 2020
  • Citations: 36

11. Global Nutritional Challenges of Reformulated Food: A Review

  • Authors: Onyeaka H, Nwaiwu O, Obileke KC, Miri T, Al-Sharify ZT
  • Journal: Food Science & Nutrition 11(6), 2483-2499
  • Year: 2023
  • Citations: 33

12. Economic Analysis of Biogas Production via Biogas Digester Made from Composite Material

  • Authors: Obileke KC, Makaka G, Nwokolo N, Meyer EL, Mukumba P
  • Journal: ChemEngineering 6(5), 67
  • Year: 2022
  • Citations: 31

13. Value-Added Materials Recovered from Waste Bone Biomass: Technologies and Applications

  • Authors: Hart A, Ebiundu K, Peretomode E, Onyeaka H, Nwabor OF, Obileke KC
  • Journal: RSC Advances 12(34), 22302-22330
  • Year: 2022
  • Citations: 31

14. Financial and Economic Feasibility of Bio-Digesters for Rural Residential Demand-Side Management and Sustainable Development

  • Authors: Meyer EL, Overen OK, Obileke KC, Botha JJ, Anderson JJ, Koatla TAB, et al.
  • Journal: Energy Reports 7, 1728-1741
  • Year: 2021
  • Citations: 31

15. Sous Vide Processing: A Viable Approach for the Assurance of Microbial Food Safety

  • Authors: Onyeaka H, Nwabor O, Jang S, Obileke KC, Hart A, Anumudu C, Miri T
  • Journal: Journal of the Science of Food and Agriculture 102(9), 3503-3512
  • Year: 2022
  • Citations: 30

16. Biogas and Syngas Production from Sewage Sludge: A Sustainable Source of Energy Generation

  • Authors: Enebe NL, Chigor CB, Obileke KC, Lawal MS, Enebe MC
  • Journal: Methane 2(2), 192-217
  • Year: 2023
  • Citations: 27

17. Comparative Study on the Performance of Aboveground and Underground Fixed‐Dome Biogas Digesters

  • Authors: Obileke KC, Mamphweli S, Meyer EL, Makaka G, Nwokolo N, Onyeaka H
  • Journal: Chemical Engineering & Technology 43(1), 68-74
  • Year: 2020
  • Citations: 24

18. Development of a Mathematical Model and Validation for Methane Production Using Cow Dung as Substrate in the Underground Biogas Digester

  • Authors: Obileke KC, Mamphweli S, Meyer EL, Makaka G, Nwokolo N
  • Journal: Processes 9(4), 643
  • Year: 2021
  • Citations: 22

19. Minimizing Carbon Footprint via Microalgae as a Biological Capture

  • Authors: Onyeaka H, Miri T, Obileke K, Hart A, Anumudu C, Al-Sharify ZT
  • Journal: Carbon Capture Science & Technology 1, 100007
  • Year: 2021
  • Citations: 22

20. Materials for the Design and Construction of Household Biogas Digesters for Biogas Production: A Review

  • Authors: Obileke KC, Onyeaka H, Nwokolo N
  • Journal: International Journal of Energy Research 45(3), 3761-3779
  • Year: 2021
  • Citations: 21

 

Frédéric DUBAS | energy | Best Researcher Award

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Assist. Prof. Dr. Frédéric DUBAS | energy | Best Researcher Award

Associate Professor. Femto-ST / uFC, France

Frédéric Dubas, a dedicated academic and researcher, has been serving as a Maître de Conférences (MCF) at Université de Franche-Comté (UFC) since 2009. Specializing in the field of sciences, he has progressed to the rank of “hors classe” and holds substantial experience in teaching, scientific leadership, and supervision. His work spans interdisciplinary research in non-conventional thermal and electrical machinery, particularly through the renowned FEMTO-ST Institute. With a proactive approach to industrial collaborations, Frédéric has contributed significantly to scientific advancements in electrical actuators and electrolyzer technologies. 🌍🎓💡

Publication Profile

ORCID

Education

Frédéric earned his MCF degree in 2009 and was promoted to “hors classe” in 2022. Currently affiliated with the Department of Sciences and Energies at UFC and the FEMTO-ST Institute, he continues to push the boundaries of research while mentoring students across multiple academic levels. 🏅📘

Experience

Frédéric has over 15 years of academic experience, during which he has supervised both undergraduate and graduate programs in science and energy, focusing on electrical engineering topics. He also leads the “Non-Conventional Thermal and Electrical Machines” research team and has been a key scientific figure for the SHARPAC team, directing research initiatives and overseeing multiple industrial projects with notable partners. His expertise includes both scientific leadership and hands-on project supervision, where he engages in practical research applications. 👨‍🏫🔋

Research Focus

Frédéric’s research primarily centers on electrical machinery, non-conventional thermal and electrical machines, and electrolyzer technologies. He has driven numerous interdisciplinary projects within the FEMTO-ST Institute, where he leads research in novel approaches to enhance efficiency in electrical machines. His industrial collaborations have yielded impactful outcomes in applied science and engineering. 🌌⚙️

Awards and Honors

Frédéric’s contributions have been widely recognized, including the IEEE “Best Paper Award” in 2021 and the internal Renault Innovation Award in 2019. His work has earned additional accolades such as the WASET “Best Presentation Award” and IEEE “Prize Paper Award.” His published works have also been highlighted on MCA MDPI journal covers in both 2018 and 2021, demonstrating his influence in the field of electrical engineering. 🏆📜

Publication Top Notes

Diagnostic and Performance Analysis of a Water Electrolyzer by Magnetic Field Measurements

A 2D Multi-Layer Model to Study the External Magnetic Field Generated by a Polymer Exchange Membrane Fuel Cell

Review of Multi-Physics Modeling on the Active Magnetic Regenerative Refrigeration

Yutaka Moritomo | Energy Material Science | Best Researcher Award

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Prof. Yutaka Moritomo | Energy Material Science | Best Researcher Award

Professor, University of Tsukuba, Japan

Yutaka Moritomo is a distinguished Professor at the Faculty of Pure and Applied Science, University of Tsukuba, known for his pioneering research in thermoelectric conversion devices and battery technology. With a career spanning over three decades, his work focuses on enhancing the efficiency and performance of electrochemical systems.

Profile

Google Scholar

Strengths

  1. Depth and Breadth of Research: Yutaka Moritomo’s research spans various aspects of physical science, particularly in the fields of materials science, electrochemistry, and energy storage. His work on thermoelectric devices, battery technologies, and organic electronics showcases a deep understanding and significant contribution to these fields.
  2. High-Impact Publications: Moritomo has a strong publication record with numerous papers in high-impact journals such as Nature Materials, J. Phys. Soc. Jpn., and Energy Technology. This indicates a high level of recognition and respect within the scientific community.
  3. Innovative Contributions: His research on liquid thermoelectric devices, concentration-dependent resistance components, and thermorechargeable batteries demonstrates innovation and an ability to address cutting-edge topics. His work on improving battery performance and understanding redox potential in various materials is noteworthy.
  4. Collaborative Efforts: Moritomo has co-authored numerous papers with various researchers, showing his ability to work effectively in collaborative environments. This is crucial for advancing complex scientific research and developing new technologies.
  5. Consistency and Continuity: His consistent publication output and engagement in diverse but related research areas over the years reflect a sustained commitment to scientific inquiry and advancement.

Areas for Improvement

  1. Research Diversity: While Moritomo’s focus on electrochemistry and thermoelectric devices is impressive, diversifying into other emerging fields or interdisciplinary research could broaden his impact and address a wider range of scientific questions.
  2. Impact and Application: Although his research is technically sound, more emphasis could be placed on the practical applications and commercialization of his findings. Translating scientific discoveries into real-world solutions could enhance the societal impact of his work.
  3. Interdisciplinary Integration: Increasing integration with other scientific disciplines, such as integrating his work with developments in computational modeling or advanced materials science, could lead to new insights and applications.
  4. Public Engagement: Greater efforts in public science communication and outreach could help bridge the gap between scientific research and public understanding. This might involve writing more accessible articles or participating in science education initiatives.

Education

Dr. Moritomo earned his PhD in Physics from the University of Tokyo in 1992, where he laid the foundation for his future research in thermoelectric and battery technologies. 🎓

Experience

After completing his PhD, he worked as a JSPS Research Fellow and then held a Postdoctoral position at JRCAT. From 1996 to 2005, he was an Associate Professor at Nagoya University before joining the University of Tsukuba as a Professor in 2005. 🏛️

Research Interests

His research delves into liquid thermoelectric conversion devices, battery performance optimization, and the thermal conductivity of solutions. He aims to advance energy storage and conversion technologies through innovative electrochemical solutions. ⚛️

Awards

Dr. Moritomo has been recognized for his contributions to physics and energy science, though specific awards are not listed. 🏅

Publications Top Notes

T. Aiba and Y. Moritomo, Coated electrode for liquid thermoelectric conversion devices to enhance Fe2+/Fe3+ redox kinetics, Sustain. Energy & Fuel, 2024.

D. Inoue and Y. Moritomo, Concentration dependence of resistance components in solutions containing dissolved Fe2+/Fe3+, RSC Adv., 2024.

K. Nishitani and Y. Moritomo, Thermal conductivity of organic solutions against solute concentration, J. Phys. Soc. Jpn., 2024.

Y. Taniguchi, T. Aiba, T. Kubo, Y. Moritomo, Thermorechargeable Battery composed of mixed electrodes, Future Battery, 2024.

K. Furuuchi, Y. Taniguchi, Y. Bao, H. Niwa, and Y. Moritomo, Battery resistance and its effect on performance of laminate film-type Co-PBA/Ni-PBA tertiary battery, Jpn. J. Appl. Phys., 2024.

Conclusion

Yutaka Moritomo is a highly accomplished researcher with significant contributions to the fields of electrochemistry, materials science, and energy storage. His innovative work and high-impact publications demonstrate a strong case for the “Best Researcher Award.” To further enhance his candidacy, focusing on expanding research diversity, increasing practical applications, and improving public engagement could be beneficial.

Ferhunde Atay | Energy Award | Women Researcher Award

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Prof Ferhunde Atay | Energy Award | Women Researcher Award

Prof Ferhunde Atay ,Eskisehir Osmangazi University ,Turkey

Prof. Ferhunde Atay, an esteemed physicist at Eskisehir Osmangazi University, has been a pioneering figure in semiconductor materials and environmental sciences 🌍. With a robust academic background including a PhD in Physics, Atay’s research spans diverse areas such as wastewater treatment, nanomaterials, and optical properties. Since 2003, she has held key roles in academia, currently serving as Head of Department. Atay’s prolific career is underscored by numerous publications and active involvement in research committees, contributing significantly to the field of materials science and physics 🔬.

Publication Profile

Orcid

Education

Prof. Ferhunde Atay pursued her academic journey with dedication and excellence in physics. She earned her undergraduate degree in Physics from Anadolu University, Turkey, from 1990 to 1994, laying a solid foundation in the field. Continuing her studies at Eskisehir Osmangazi University’s Institute of Science, she completed a thesis-based postgraduate program in Physics from 1994 to 1997. Subsequently, Atay obtained her Doctorate in Physics from the same institution between 1996 and 2002, marking significant milestones in her academic career 📚. Her educational background has equipped her with deep insights into the intricate aspects of materials science and physical phenomena.

Experience: 💼

Prof. Ferhunde Atay boasts a rich history of academic and administrative leadership at Eskisehir Osmangazi University, particularly within the Department of Physics. She currently serves as the Head of Department, a role she has held since 2022, continuing her longstanding commitment to advancing education and research in physics 🎓. Previously, from 2019 to 2022, she led the department with distinction, overseeing its growth and development. Atay’s administrative contributions also extend to serving on the Academic Promotion Evaluation Committee since 2019 and various roles in ethics committees and faculty boards between 2013 and 2020. Her leadership has been pivotal in shaping both academic strategy and institutional governance 🌟.

Research Focus

Prof. Ferhunde Atay’s research primarily focuses on the synthesis, characterization, and applications of nanostructured metal oxide materials, with a special emphasis on zinc oxide (ZnO) and its doped variants. Her work spans various aspects including structural, optical, surface, and electrochemical properties, as well as their implications in diverse applications such as dye absorption and photocatalysis 🌱. Through her contributions, Dr. Atay explores the integration of nanotechnology in addressing environmental challenges and advancing renewable energy technologies. Her extensive research portfolio underscores a commitment to innovative materials science aimed at enhancing sustainability and functionality in diverse technological domains.

Publications Top Notes

“Investigation of Structural, Optical, Surface, Electrochemical and Corrosion Properties of ZnO and AZO Nanorod Arrays for Dye Absorption Applications” (2024) 📚

“Role of Ir incorporation on structural, surface, optical, and electrical properties of ultrasonically produced ZnO films” (2023) 📚

“An effective approach for hydrothermal synthesis of ZnO nanorod arrays activated under UV/Vis light: Different supporting ligands for hydrothermal precursor solutions” (2023) 📚

“Hydrothermal synthesis of ZnO nanostructures for environmental applications: the role of different supporting ligands” (2023) 📚

“Al and B co-doped ZnO samples as an alternative to ITO for transparent electronics applications” (2022)