Tzu Hsuan Chiang | Energy | Best Researcher Award

Published on by World Top Scientists

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. Chiangโ€™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

 

Jing Li | Energy | Best Researcher Award

Published on by World Top Scientists

Assoc. Prof. Dr Jing Li | Energy | Best Researcher Award

Professor at Chongqing University, China

Dr. Jing Li is an Associate Professor at the School of Energy and Power Engineering, specializing in micro and nanoscale heat transfer, phase change energy storage, and thermal management materials. She earned her Ph.D. in Power Engineering and Engineering Thermophysics from the University of Science and Technology Beijing in 2015. With over 50 research publications, including 25 indexed in SCI, she has made significant contributions to the field. She has led and participated in numerous national and provincial research projects, including those funded by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. Her research focuses on developing advanced thermal management solutions using phase change materials and nanomaterials. Dr. Liโ€™s work has broad applications in energy efficiency and sustainability. With a strong track record in securing research funding and publishing high-impact studies, she is a key figure in advancing energy storage and heat transfer technologies.

Professional Profileย 

Scopus Profile

Education

Dr. Jing Li holds a Ph.D. in Power Engineering and Engineering Thermophysics from the University of Science and Technology Beijing, which she earned in 2015. Her doctoral research focused on advanced thermal management, energy storage, and nanoscale heat transfer, laying a strong foundation for her future contributions to these fields. Prior to that, she completed her Bachelor of Engineering (B.E.) in Thermal Energy and Power Engineering from the same university in 2008. During her undergraduate studies, she developed a keen interest in thermophysical properties and energy utilization, which later guided her research trajectory. Her academic journey reflects a consistent focus on energy systems, phase change materials, and micro/nanoscale heat transfer, equipping her with the expertise to lead innovative research projects in these domains. With a strong educational background from a prestigious institution, Dr. Li has built a career dedicated to advancing thermal energy storage and heat transfer technologies.

Professional Experience

Dr. Jing Li is an Associate Professor at the School of Energy and Power Engineering, Chongqing University. She earned her Ph.D. in Power Engineering and Engineering Thermophysics from the University of Science and Technology Beijing in 2015. With extensive experience in thermal energy research, she has been actively involved in multiple national and provincial research projects, including those funded by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. As a principal investigator and key research personnel, she has contributed to advancements in heat transfer, phase change energy storage, and nanoscale thermophysics. Dr. Li has also collaborated with industrial and academic institutions on energy-efficient technologies, furthering the applications of her research in practical engineering fields. Her dedication to innovative heat transfer solutions and her leadership in research projects have established her as a respected expert in energy and thermal physics.

Research Interest

Dr. Jing Liโ€™s research primarily focuses on micro- and nanoscale heat transfer, phase change heat storage, and energy cascade utilization. Her work explores advanced heat storage materials, thermophysical properties, and near-field radiation effects, contributing to the development of high-efficiency thermal management systems. She has extensively studied multiphase flow heat transfer and the application of nanomaterials in enhancing thermal conductivity. Her recent research includes molecular dynamics simulations of composite phase change materials, graphene-enhanced thermal properties, and experimental studies of thermal diodes. Through her interdisciplinary approach, she bridges fundamental physics with practical applications in industrial waste heat recovery, electronics cooling, and renewable energy systems. Dr. Li’s contributions to energy-efficient materials and next-generation thermal management technologies provide valuable insights for sustainable energy solutions, making her research highly relevant to modern engineering and environmental challenges.

Award and Honor

Dr. Jing Li has received multiple awards and honors in recognition of her contributions to energy research and heat transfer studies. She has been awarded research grants from prestigious institutions such as the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. Her work on phase change materials and nanoscale heat transfer has been recognized in leading scientific journals, where she has published over 50 research papers, many indexed in SCI and EI. Additionally, she has been acknowledged for her outstanding research contributions through provincial and national talent programs, including the Chongqing Talent Plan. Dr. Liโ€™s expertise in thermal energy storage has earned her invitations to international conferences as a keynote speaker and panelist. Her achievements not only highlight her excellence in academic research but also emphasize her impact on advancing energy-efficient technologies for industrial and environmental applications.

Conclusion

Dr. Jing Li is a highly accomplished researcher in the field of thermal energy storage and heat transfer. With a strong academic background, extensive research experience, and numerous high-impact publications, she has made significant contributions to advancing energy-efficient materials and thermal management systems. Her work on phase change materials, nanoscale heat transfer, and molecular dynamics simulations has provided valuable insights into next-generation energy technologies. Through leadership in research projects and active collaboration with industry, she continues to bridge the gap between fundamental science and practical applications. Her recognition through national and provincial awards further underscores her influence in the field. Dr. Li’s dedication to innovation, sustainability, and scientific excellence makes her a distinguished researcher and a valuable asset to the academic and engineering communities. Her work will continue to play a crucial role in addressing global energy challenges and developing advanced thermal management solutions.

Publications Top Noted

  • Title: Molecular dynamics simulation of thermal properties in composite phase change materials based on functionalized graphene and polyethylene glycol
    Authors: Yu Mao, Jing Li*, Xu Yang, Keai Tao, Kuan Sun, Shanshan Chen, Yujie Zheng
    Year: 2024
    Citation: Journal of Energy Storage, 94:112104

  • Title: Molecular dynamics simulation of thermal properties of modified graphene/n-octadecane composite phase change material
    Authors: Li J*, Mao Y, Yang X, et al.
    Year: 2024
    Citation: Journal of Physics: Conference Series, 2749(1):012008

  • Title: A polyurethane solid-solid composite phase change material based on modified graphene oxide for efficient thermal management
    Authors: Yang X, Liao Y N, Li J*, et al.
    Year: 2024
    Citation: Journal of Physics: Conference Series, 2749(1):012007

  • Title: Experimental study of single-phase change material thermal diode based on calcium chloride hexahydrate
    Authors: Yang Xu, Li Jing, Mao Yu, Tao Ke-Ai, Sun Kuan, Chen Shan-Shan, Zhou Yong-Li, Zheng Yu-Jie
    Year: 2024
    Citation: Acta Phys. Sin., 73(5): 058301

  • Title: Near-field radiative heat transfer between successive nanowires and its effects on thermal conductivity of mesoporous composites
    Authors: Jing Li*, Yanhui Feng, Xinxin Zhang, Xinming Zhang
    Year: 2016
    Citation: Applied Thermal Engineering, 93: 978-987

  • Title: Shape-stable phase change composites based on carbonized waste pomelo peel for low-grade thermal energy storage
    Authors: Shaowei Li, Jing Li*, Yang Geng, Yanning Liao, Shanshan Chen, Kuan Sun, Meng Li
    Year: 2022
    Citation: Journal of Energy Storage, 47: 103556/1-103556/10

  • Title: Theoretical and experimental research of thermal conductivity of silver (Ag) nanowires in mesoporous substrate
    Authors: Jing Li*, Yanhui Feng, Xinxin Zhang, Ge Wang
    Year: 2018
    Citation: International Journal of Heat & Mass Transfer, 121: 547-554

  • Title: Super-elastic and shape-stable solid-solid phase change materials for thermal management of electronics
    Authors: Yanning Liao, Jing Li*, Shaowei Li, Xu Yang
    Year: 2022
    Citation: Journal of Energy Storage, 52: 104751-104751

  • Title: Dual-functional polyethylene glycol/graphene aerogel phase change composites with ultrahigh loading for thermal energy storage
    Authors: Shaowei Li, Jing Li*, Yanning Liao, Shanshan Chen, Yujie Zheng, Meng Li, Kuan Sun
    Year: 2022
    Citation: Journal of Energy Storage, 54: 105337-105337

  • Title: Interfacial thermal resistance in mesoporous composites and its thermal conductivity
    Authors: Jing Li*, Yanhui Feng, Xinxin Zhang, Ge Wang
    Year: 2016
    Citation: CIESC Journal, 67(S1): 166-173

  • Title: Preparation and thermophysical properties of graphene nanoplatelets-octadecane phase change composite materials
    Authors: Cai Di, Jing Li*, Jiao Nai Xun
    Year: 2019
    Citation: Acta Physica Sinica, 68(10): 100502/1-100502/9

  • Title: Near-field Radiative Heat Transfer across a Pore and Its Effects on Thermal Conductivity of Mesoporous Silica
    Authors: Jing Li, Yanhui Feng*, Xinxin Zhang, Congliang Huang, Ge Wang
    Year: 2015
    Citation: Physica B, 456(1):237-243

  • Title: Study of Near-field Radiative Heat Transfer in Mesoporous Alumina
    Authors: Jing Li, Yanhui Feng*, Xinin Zhang, Congliang Huang, Ge Wang
    Year: 2015
    Citation: Chinese Physics B, 24(1): 14401-014401

  • Title: Near-field radiation across a spherical pore in mesoporous silica
    Authors: Jing Li, Yanhui Feng*, Xinxin Zhang, Congliang Huang, Mu Yang
    Year: 2015
    Citation: Chinese Journal of Engineering, 37(8): 1063-1068

  • Title: Thermal conductivities of metallic nanowires with considering surface and grain boundary scattering
    Authors: Jing Li, Feng Yan-Hui*, Zhang Xin-Xin et al.
    Year: 2013
    Citation: Acta Phys. Sin, 62(18): 186501

  • Title: Numerical simulation of the flow and heat-transfer characteristics of an aligned external three-dimensional rectangular-finned tube bank
    Authors: Juwu Xu, Jing Li*, Yudong Ding, Qian Fu, Min Cheng, Qiang Liao
    Year: 2018
    Citation: Applied Thermal Engineering, 145:110-122

 

Parveen Fatemeh Rupani | Energy | Best Researcher Award

Published on by World Top Scientists

Dr. Parveen Fatemeh Rupani | Energy | Best Researcher Award

Postdoctoral Research Fellow at Cranfield University,United Kingdom

Dr. Parveen Fatemeh Rupani is an accomplished Environmental Scientist and Bioenergy Specialist with over 10 years of experience in environmental biotechnology and waste-to-energy research. Holding a Ph.D. from Universiti Sains Malaysia, she has published extensively in prestigious journals, garnering over 1,600 citations and an h-index of 19. Currently a Postdoctoral Fellow at Cranfield University, her research focuses on soil health and nutrient recovery. Dr. Rupani’s strengths lie in her strategic planning for green sustainability and strong collaborative skills, while opportunities for improvement include enhancing her public outreach and interdisciplinary collaboration.

Profile:

Strengths for the Award:

  1. Extensive Research Background:
    • Dr. Rupani holds a Ph.D. in Industrial Technology with a focus on Environmental Technology, demonstrating a solid academic foundation.
    • She has over ten years of enriched academic experience, specializing in environmental biotechnology and waste-to-energy technologies.
  2. High Impact Publications:
    • She has published numerous research articles in prestigious international journals, amassing over 1600 citations and an h-index of 19. This indicates her work is widely recognized and influential in her field.
  3. Leadership in Research:
    • Dr. Rupani has consistently taken on leadership roles, including supervising PhD students and managing research projects across various prestigious institutions.
    • Her roles as lead researcher in multiple projects demonstrate her ability to drive impactful research and foster collaboration.
  4. Innovative Approaches:
    • She is known for her innovative strategies in areas like wastewater treatment, bioenergy production, and sustainable waste management, contributing significantly to environmental sustainability.
  5. Professional Engagement:
    • Active participation in editorial roles for various scientific journals and as a guest speaker at international conferences highlights her commitment to advancing her field and mentoring others.
  6. Recognition and Awards:
    • Dr. Rupani has received multiple awards for her research and contributions, including the “Best Oral Presentation” at the International Conference (ICESD) and a “Seal of Excellence” on a Marie Curie fellowship project.

Areas for Improvement:

  1. Broader Interdisciplinary Collaboration:
    • While Dr. Rupani has demonstrated excellent collaboration within environmental science, exploring interdisciplinary research opportunities with fields like social sciences or policy could enhance the impact of her work on sustainable practices.
  2. Increased Public Engagement:
    • Enhancing outreach efforts to share her research findings with broader audiences, including policymakers and the public, could strengthen the application of her research in real-world scenarios.
  3. Focus on Long-term Impact Assessment:
    • Incorporating long-term monitoring and impact assessment into her research projects could provide valuable insights into the sustainability and effectiveness of the bioenergy and waste management systems she develops.

Education:

Dr. Parveen Fatemeh Rupani has a strong academic background in environmental science and technology. She earned her Doctorate of Philosophy in Industrial Technology with a specialization in Environmental Technology from Universiti Sains Malaysia, where she studied from September 2009 to June 2016. Prior to that, she completed her Master of Science in Environmental Science at Pune University (SPPU) from July 2006 to June 2008. Her educational journey began with a Bachelor of Engineering in Agricultural Engineering, focusing on Plant Pathology, which she obtained from Bu Ali Sina University (BASU) between June 2001 and June 2005. This extensive education has equipped her with a solid foundation in environmental biotechnology, waste management, and sustainable practices.

Experience:

Dr. Parveen Fatemeh Rupani is an accomplished Environmental Scientist and Bioenergy Specialist with over ten years of extensive academic and research experience. Her expertise encompasses environmental biotechnology, waste-to-energy processes, and circular economy strategies. Currently, as a Postdoctoral Fellow at Cranfield University, she evaluates the efficacy of organo-mineral fertilizers to enhance soil health and grain quality. Previously, she held positions as a Senior Postdoctoral Fellow at KU Leuven and as an Associate Professor at Jiangsu University, where she led multiple research projects on wastewater sludge treatment, nutrient recovery, and biogas production. Dr. Rupani has mentored numerous PhD students and has been actively involved in high-impact research, evidenced by her impressive publication record with over 1600 citations and an h-index of 19. Additionally, she has participated in various international conferences, delivered keynote speeches, and served on editorial boards for prominent scientific journals, highlighting her significant contributions to the field of environmental science and bioenergy.

Research Focus:

Dr. Parveen Fatemeh Rupani’s research focuses on environmental biotechnology, particularly the transformation of waste into bioenergy and sustainable practices. Her work encompasses various aspects of bioenergy production, including the anaerobic digestion of organic waste, the valorization of wastewater sludge, and the development of novel fertilizers to enhance soil health. She employs advanced methodologies, such as microbial community analysis and the use of hyperthermophilic bacteria, to investigate the biological mechanisms underlying waste degradation and energy recovery. Dr. Rupani’s commitment to green sustainability is evident in her strategic implementation of circular economy principles and her extensive contributions to high-impact research publications, which emphasize innovative solutions for environmental challenges.

Publications Top Notes:

  • Vermicomposting of Green Organic Wastes Using Eisenia Fetida Under Field Conditions: a Case Study of a Green Campus
    • Authors: Rupani, P.F., Embrandiri, A., Garg, V.K., Dewil, R., Appels, L.
    • Year: 2023
    • Citations: 7
  • Biowastes of slaughterhouses and wet markets: an overview of waste management for disease prevention
    • Authors: Al-Gheethi, A., Ma, N.L., Rupani, P.F., Mohamed, R.M.S.R., Soon, C.F.
    • Year: 2023
    • Citations: 18
  • Biocatalytic gateway to convert glycerol into 3-hydroxypropionic acid in waste-based biorefineries: Fundamentals, limitations, and potential research strategies
    • Authors: Zabed, H.M., Akter, S., Rupani, P.F., Ragauskas, A.J., Qi, X.
    • Year: 2023
    • Citations: 11
  • Review on waste biomass valorization and power management systems for microbial fuel cell application
    • Authors: Ahanchi, M., Jafary, T., Yeneneh, A.M., Tabatabaei, M., Aghbashlo, M.
    • Year: 2022
    • Citations: 25
  • Changes in the microbiota during biological treatment of palm oil mill waste: A critical review
    • Authors: Rupani, P.F., Embrandiri, A., Rezania, S., Domรญnguez, J., Appels, L.
    • Year: 2022
    • Citations: 8
  • Novel approach to ammonia recovery from anaerobic digestion via side-stream stripping at multiple pH levels
    • Authors: Palakodeti, A., Rupani, P.F., Azman, S., Dewil, R., Appels, L.
    • Year: 2022
    • Citations: 7

Conclusion:

Dr. Parveen Fatemeh Rupani exemplifies the qualities of an outstanding researcher. Her extensive experience, high-impact publications, leadership in innovative projects, and dedication to advancing environmental sustainability make her a deserving candidate for the Best Researcher Award. By addressing her areas for improvement, she can further enhance her contributions to environmental science and policy, ensuring that her work continues to influence future generations.

Ferhunde Atay | Energy Award | Women Researcher Award

Published on by World Top Scientists

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 ๐ŸŒ. 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 ๐Ÿ”ฌ.

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 ๐Ÿ“š. Her educational background has equipped her with deep insights into the intricate aspects of materials science and physical phenomena.

Experience: ๐Ÿ’ผ

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 ๐ŸŽ“. 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 ๐ŸŒŸ.

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 ๐ŸŒฑ. 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) ๐Ÿ“š

“Role of Ir incorporation on structural, surface, optical, and electrical properties of ultrasonically produced ZnO films” (2023) ๐Ÿ“š

“An effective approach for hydrothermal synthesis of ZnO nanorod arrays activated under UV/Vis light: Different supporting ligands for hydrothermal precursor solutions” (2023) ๐Ÿ“š

“Hydrothermal synthesis of ZnO nanostructures for environmental applications: the role of different supporting ligands” (2023) ๐Ÿ“š

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