Beyza Durusoy | Solar Energy | Best Researcher Award

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Dr. Beyza Durusoy | Solar Energy | Best Researcher Award

PhD. Graduate, at Middle East Technical University, Turkey.

Beyza Durusoy is a dedicated researcher specializing in micro and nanotechnology, with a strong focus on photovoltaic systems and solar energy materials. Currently pursuing her Ph.D. at Middle East Technical University (METU), she investigates potential-induced degradation (PID) mechanisms in perovskite and silicon solar cells. Her work has led to innovative anti-PID solutions, improving solar cell efficiency. Beyza has gained international research experience as a Visiting Researcher at Fraunhofer CSP, Germany, contributing to the Viperlab Project. She has been actively involved in academia, supervising students, and participating in TUBITAK-funded projects. With a passion for renewable energy, she has authored several publications in high-impact journals. She has received multiple awards for academic excellence and has contributed to various international conferences. Her expertise spans solar energy modeling, bifacial PV modules, and sustainable energy solutions.

Professional Profile

Education 🎓

Beyza Durusoy is currently completing her Ph.D. in Micro and Nanotechnology at METU (2020–2024). Her research focuses on analyzing potential-induced degradation mechanisms in perovskite and silicon solar cells with distinct glass encapsulants. Her M.Sc. in Physics (2020) from METU centered on modeling the efficiency of bifacial PV modules, evaluating rooftop solar potential, and analyzing rear-side irradiation. She also supervised undergraduate students, fostering future renewable energy researchers. During her undergraduate years, she was involved in interdisciplinary projects, including climate research and high-efficiency solar cell fabrication. Her academic journey is marked by a strong foundation in physics, nanotechnology, and solar energy, reflecting her commitment to advancing photovoltaic technologies.

Experience 🌟

Beyza has extensive experience in photovoltaic research, having served as a Scholar in METU’s Micro and Nanotechnology Program from 2020 to 2024, where she collaborated on TUBITAK 2244 projects with Sisecam Glass Company. In 2023, she was a Visiting Researcher at Fraunhofer CSP, Germany, working on PID mitigation strategies in perovskite solar cells. From 2019 to 2021, she was a Research Assistant at METU, conducting recitation sessions and teaching solar energy courses. Her early career included roles as a researcher in various TUBITAK projects related to solar energy and climate studies. She also interned at the Medical Physics Laboratory at Aristotle University of Thessaloniki, Greece. As an AI Trainer since 2024, she applies her expertise in data analysis and solar modeling.

Research Interests 🌍

Beyza’s research interests span solar photovoltaics, micro and nanotechnology, and renewable energy. She specializes in potential-induced degradation (PID) mechanisms in solar cells, developing anti-PID solutions for enhanced efficiency. Her work on bifacial PV modules includes modeling rear-side irradiation and assessing rooftop solar potential. She is also involved in glass technology innovations for solar applications, collaborating with industry leaders like Sisecam. Beyond photovoltaics, her interests extend to climate-related solar energy applications, such as analyzing corallite growth in response to solar irradiation. Her multidisciplinary approach combines experimental and computational techniques to optimize solar energy systems for sustainable development.

Awards 🏆

Beyza has received multiple awards and certifications recognizing her academic excellence and contributions to renewable energy. In 2022, she was honored as the most successful Ph.D. student in METU’s Micro and Nanotechnology Program, achieving a CGPA of 3.71/4.00. She holds several e-certificates from the Renewables Academy, including “COBENEFITS Trainer for Climate Action” and “COBENEFITS Specialist in Renewable Energy.” She has also been recognized for her contributions to renewable energy policy development and employment impact analysis. Her early achievements include a Python Programming certificate from Michigan State University in 2014. Her consistent dedication to research and education has positioned her as a leading scholar in solar energy innovation.

Top Noted Publications 📚

  • B. Durusoy et al. “Suppression of the Shunting-Type Potential Induced Degradation (PID-s) Through an Ion Exchange Process on Soda Lime Silicate Glasses,” Solar Energy Materials and Solar Cells, 2025.
  • B. Durusoy et al. “Standardized Test Routines for the Assessment of Potential Induced Degradation of Perovskite Solar Cells,” Proceedings of EU PVSEC, 2024.
  • B. Durusoy et al. “Technical Potential of Rooftop Solar Photovoltaic for Ankara,” Renewable Energy, 2022.
  • B. Durusoy et al. “Solar Irradiation on the Rear Surface of Bifacial Solar Modules: A Modeling Approach,” Scientific Reports, Nature, 2020.

Conclusion

Beyza Durusoy is a highly qualified candidate for the Best Researcher Award, with exceptional contributions to solar energy research. Her strong publication record, international collaborations, and industry-linked projects make her a competitive nominee. Expanding her research impact into commercial applications and grant leadership could further solidify her standing in the field.

 

 

 

Xiangcheng Lyu | Solar Panel | Best Researcher Award

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Mr. Xiangcheng Lyu | Solar Panel | Best Researcher Award

PhD Student at Cranfield University, United Kingdom 

Xiangcheng Lyu is a driven postgraduate researcher specializing in offshore renewable energy and materials science. Currently pursuing a Ph.D. in Energy and Sustainability at Cranfield University, he combines academic excellence with innovative research. His work focuses on the development of sustainable solutions, such as wave energy converters for floating solar farms, demonstrating his ability to address real-world challenges. With prior industry experience as a mechanical engineer, Xiangcheng contributed to designing experimental apparatus and developing eco-friendly flame retardants, securing multiple patents. His technical proficiency extends to advanced simulation software, solidifying his expertise in mechanical engineering and offshore systems. Recognized through numerous academic and professional awards, Xiangcheng exemplifies a balance of research innovation, practical application, and teamwork, making him a promising researcher in his field.

Professional Profile

Education

Xiangcheng Lyu has an impressive academic background in mechanical engineering and energy sustainability. He is pursuing a Ph.D. in Energy and Sustainability (2024–2027) and a Master’s degree in Advanced Mechanical Engineering (2023–2024) at Cranfield University, UK. His undergraduate education was completed at Minnan University of Science and Technology, China, where he graduated with a Bachelor of Engineering in Mechanical Engineering in 2021, achieving an outstanding GPA of 3.81. His strong academic foundation is complemented by awards and scholarships that highlight his consistent academic excellence, including recognition for his bachelor’s thesis. Xiangcheng’s multidisciplinary education equips him with expertise in designing and analyzing advanced engineering systems, contributing significantly to his innovative research pursuits.

Professional Experience

Xiangcheng Lyu brings two years of industry experience as a Test/Mechanical Engineer at Tonggou Technology Co., Ltd. in Suzhou, China (2021–2023). During this time, he specialized in the testing and experimentation of flame retardants, where he designed and manufactured experimental setups to improve efficiency. His work led to the development of eco-friendly flame retardants, resulting in enhanced experimental apparatus and multiple patented innovations. Xiangcheng’s professional experience extends to mechanical design, system optimization, and materials testing. In his academic journey, he has also contributed to research projects involving wave energy converters and floating breakwater systems. His ability to integrate theoretical knowledge with practical application makes him adept at solving engineering challenges, and his work consistently focuses on sustainability and innovation.

Research Interests

Xiangcheng Lyu’s research interests lie at the intersection of renewable energy, mechanical engineering, and materials science. He is passionate about exploring sustainable energy solutions, focusing on offshore renewable systems such as wave energy converters and floating solar farms. His projects reflect a commitment to tackling global energy challenges through innovative engineering designs. Additionally, Xiangcheng is keenly interested in the testing and optimization of flame retardants, particularly eco-friendly materials that minimize environmental impact. His academic and professional endeavors also include mechanical systems innovation, as evidenced by his patented designs for fire-resistant children’s carts and floating breakwaters. His interdisciplinary approach combines expertise in materials, mechanics, and sustainability, driving his ambition to contribute to advancements in energy and materials research.

Research Skills

Xiangcheng Lyu is highly skilled in a variety of research methodologies and technical applications. His expertise includes offshore engineering principles, experimental design, and the analysis of renewable energy systems. He is proficient in advanced simulation and design software, including Solidworks, ANSYS, Abaqus, MATLAB, and Python, enabling him to create and test complex mechanical systems. His experience in flame retardant testing highlights his ability to evaluate and optimize organic materials for industrial applications. Xiangcheng’s innovation is further demonstrated through his patented designs, showcasing his problem-solving capabilities. He is also adept at working collaboratively or independently, ensuring efficient project execution. His comprehensive research skill set equips him to tackle challenges in renewable energy, mechanical engineering, and materials science effectively.

Awards and Honors

Xiangcheng Lyu’s academic and professional excellence has been recognized through numerous awards and honors. Notable achievements include the First Prize in the China-US Young Maker Competition of Fujian Province (2020) and multiple Second Prizes in National Innovation Competitions between 2018 and 2019. He was named an Excellent Graduate (top 10%) and received recognition for his bachelor’s thesis (top 5%) at Minnan University of Science and Technology in 2021. Xiangcheng also earned the First Prize Scholarship (top 5%) consecutively from 2018 to 2020. His accomplishments reflect his dedication to innovation and academic rigor, solidifying his reputation as a promising researcher in mechanical engineering and energy sustainability.

Conclusion

Xiangcheng Lyu possesses a strong foundation of technical skills, academic excellence, and innovative research in renewable energy and materials science. His achievements, including patents and practical contributions to flame retardant technology, demonstrate a clear potential for impactful research. However, to fully meet the criteria for a Best Researcher Award, he could improve by publishing his work in reputable journals and engaging in international collaborations.