Mohamed El Amine Boudia | Organic solar cells | Young Scientist Excellence Award 

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Mr. Mohamed El Amine Boudia | Organic solar cells | Young Scientist Excellence Award 

Xi'an Jiaootng University | China

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Mr. Mohamed El Amine Boudia began his academic journey in electrical engineering at the University of Mostaganem, Algeria, where he earned his Bachelor’s degree in Electrical Engineering in June 2018 with a GPA of B (Top 10%). During his undergraduate studies, he developed a strong foundation in electrical engineering principles and explored various aspects of renewable energy technologies. Building on this foundation, he pursued a Master’s degree in Renewable Energies in Electrical Engineering at the same institution, graduating in October 2020 with a GPA of B (Top 10%). His master’s thesis focused on “Sizing and Study of a Hybrid Power Generation System including Photovoltaic Panels System and Sports DC Machines Equipment to Supply an Ecological Sport’s Hall,” which demonstrated his early interest in sustainable energy solutions. This period of his education marked the beginning of his commitment to advancing renewable energy technologies and optimizing energy systems.

PROFESSIONAL ENDEAVORS

Following his Master’s degree, Mohamed El Amine Boudia continued his academic career by embarking on a PhD in Power Engineering and Engineering Thermophysics at Xi’an Jiaotong University, China, starting in September 2021. His PhD research is supervised by Dr. Cunlu Zhao and is focused on “Enhancing the Power Conversion Efficiency Up To 20% of Bulk-Heterojunction Organic Solar Cells by Simulation.” This advanced research position allowed him to delve deeper into the field of organic solar cells, exploring innovative methods to improve the efficiency of these devices. Boudia’s professional work also includes receiving the 1st Prize in the XJTU-Xi’an City Government Belt & Road Scholarship in 2021, where he outperformed nearly 4000 international competitors in a rigorous two-round review process. His role as a researcher has also involved presenting his findings at various academic forums and engaging in interdisciplinary collaborations to further the development of renewable energy technologies.

CONTRIBUTIONS AND RESEARCH FOCUS

Mr. Boudia’s research has made significant contributions to the field of organic solar cells, particularly in the area of power conversion efficiency. His PhD thesis, “Enhancing the Power Conversion Efficiency Up To 20% of Bulk-Heterojunction Organic Solar Cells by Simulation,” focuses on developing and optimizing simulation models to improve the efficiency of organic solar cells. This work involves complex simulations to explore new materials and design configurations that can lead to higher energy conversion efficiencies in bulk-heterojunction organic solar cells. His master’s thesis, “Sizing and Study of a Hybrid Power Generation System including Photovoltaic Panels System and Sports DC Machines Equipment to Supply an Ecological Sport’s Hall,” addressed practical applications of renewable energy systems, demonstrating his ability to bridge theoretical research with real-world energy solutions. His research work has been instrumental in advancing the understanding of organic solar cells and renewable energy systems.

IMPACT AND INFLUENCE

Mr. Mohamed El Amine Boudia’s work has had a notable impact on the field of organic solar cells and renewable energy technologies. His research on enhancing the power conversion efficiency of bulk-heterojunction organic solar cells has the potential to influence the development of more efficient and cost-effective solar energy solutions. His achievements, including the prestigious XJTU-Xi’an City Government Belt & Road Scholarship and his recognition as an Excellent Postgraduate (Top 10%) in 2022, underscore the significance of his contributions. His innovative approaches to optimizing organic solar cells and his success in a competitive international scholarship competition reflect his influence and leadership in the field of renewable energy.

ACADEMIC CITATIONS

Mr. Boudia’s work on organic solar cells has been widely recognized and cited in academic circles. His research focuses on improving the efficiency of organic solar cells through advanced simulation techniques, which has been referenced in various scholarly articles and conference proceedings. His contributions to the study of renewable energy systems, particularly in the context of organic solar cells, are reflected in the growing body of literature that builds on his findings and methodologies. His academic achievements and the impact of his research are demonstrated by the citations and references in recent publications related to organic solar cells and renewable energy technologies.

LEGACY AND FUTURE CONTRIBUTIONS

Mohamed El Amine Boudia’s legacy in the field of power engineering and renewable energy is characterized by his dedication to advancing organic solar cells and his innovative research approaches. As he progresses in his academic and professional career, he is poised to make further contributions to the development of more efficient and sustainable energy technologies. His future work will likely continue to focus on optimizing organic solar cells and exploring new applications for renewable energy systems. His strong technical background, combined with his research experience and academic accomplishments, positions him as a future leader in the field of renewable energy.

NOTABLE PUBLICATION

Kamal Bhujel | Thin film Solar Cell | Best Researcher Award

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Dr. Kamal Bhujel | Thin film Solar Cell | Best Researcher Award 

Mizoram University | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Kamal Bhujel embarked on his academic journey by completing his schooling from St. Alphonsus School, Kurseong, Darjeeling, achieving remarkable results in the West Bengal Board of Secondary Education (W.B.B.S.E) and West Bengal Council of Higher Secondary Education (W.B.C.H.S.E). He pursued his Bachelor's degree in Science (Physics, Chemistry, Mathematics) from Vidyasagar Metropolitan College under Calcutta University, followed by an M.Sc. in Physics from Sunrise University, Rajasthan, where he graduated with distinction. Dr. Bhujel continued his academic pursuits with a Bachelor of Education (B.Ed) from WBUTTPEA Swamivivekananda College of Education, excelling with a first division.

PROFESSIONAL ENDEAVORS

Dr. Bhujel's professional career began with part-time teaching at Ramakrishna Higher Secondary School, Kurseong, and subsequently full-time teaching at Don Bosco High School, Mirik, both located in Darjeeling, West Bengal. During this period, he guided M.Sc. and M.Tech/B.Tech students in research projects and prepared students for competitive examinations like NEET/JEE. He is highly skilled in Vedic mathematics and quick mathematics techniques, promoting the International Baccalaureate (IB) and Montessori education systems.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Bhujel's research primarily focuses on thin film solar cells, particularly lead-free perovskite films for photovoltaic applications. His Ph.D. thesis, conducted under the supervision of Prof. Sumar Rai at Mizoram University, involved the synthesis and characterization of these films. He has expertise in synthesizing and characterizing nanoparticles, nanorods, and quantum dots, with a focus on lead-free perovskite solar cells, hole transport materials, and electron transport materials. His work also includes thin-film, single-layer, heterostructure, and transparent conductive oxide (TCO) materials.

IMPACT AND INFLUENCE

Dr. Bhujel's contributions to the field of thin film solar cells are reflected in his research activities and publications. His research has practical applications in developing solid-state thin film solar cell devices and dye-sensitized solar cells, contributing to the advancement of renewable energy technologies.

ACADEMIC CITES

Dr. Bhujel's work is recognized in the scientific community, evidenced by his memberships in prestigious organizations like the Indian Science Congress Association, Breakthrough Science Society, and others. He actively participates in science outreach programs and has organized educational workshops and seminars across Darjeeling Hills, promoting scientific awareness among students and communities.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Bhujel's legacy lies in his research advancements in thin film solar cells and his dedication to teaching and mentoring students. His future contributions aim to further enhance the efficiency and applicability of perovskite-based solar cells, contributing to the global effort to combat climate change through sustainable energy sources.

THIN FILM SOLAR CELL

Dr. Bhujel's expertise in thin film solar cells spans various aspects of their fabrication, characterization, and application. His research on lead-free perovskite films and other thin-film technologies continues to make significant strides in the field of renewable energy.

NOTABLE PUBLICATION