Dr. Yun-Ming Sung | Polymer solar cells | Best Researcher Award 

National Atomic Research Institute | Taiwan 

AUTHOR PROFILE

• Scopus

EARLY ACADEMIC PURSUITS

Dr. Yun-Ming Sung completed his Master’s degree at National Taiwan University in June 2011, followed by his Doctorate from the same institution in June 2015. His early academic pursuits focused on foundational research that laid the groundwork for his future contributions in the field of Polymer Solar Cells. His doctoral research at National Taiwan University established him as a promising researcher in materials science, particularly in the development and optimization of Polymer Solar Cells.

PROFESSIONAL ENDEAVORS

Dr. Sung’s professional journey includes significant roles in both research and development. He has been serving as an Associate Researcher at the National Atomic Research Institute since January 2024. Prior to this, he worked as an Associate Engineer at the Institute of Nuclear Energy Research from January 2021 to January 2024. His earlier roles included a postdoctoral position at Academia Sinica and a contractor role at Ming Chi University of Technology, where he focused on the advancement of Polymer Solar Cells technologies. His career also features experience as an Associate R&D Engineer at the Institute of Nuclear Energy Research, where he worked on projects related to Polymer Solar Cells and other energy materials.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Sung’s research has prominently featured the development and enhancement of Polymer Solar Cells. His work at National Atomic Research Institute involves exploring new materials and methods to improve the efficiency and stability of Polymer Solar Cells. During his tenure at the Institute of Nuclear Energy Research and Ming Chi University of Technology, he contributed to advancing the technology behind Polymer Solar Cells, focusing on optimizing performance and exploring new applications. His research has also involved applying innovative techniques to enhance the energy conversion efficiency of these cells.

IMPACT AND INFLUENCE

Dr. Sung’s contributions to the field of Polymer Solar Cells have had a notable impact on the advancement of renewable energy technologies. His work has influenced the development of more efficient and durable solar cell materials, which is crucial for the broader adoption of solar energy. His involvement in various research institutions and his role in advancing the technology of Polymer Solar Cells underscore his influence in the field of energy materials.

ACADEMIC CITATIONS

Dr. Sung’s research on Polymer Solar Cells has been cited in numerous academic publications, reflecting the significance and relevance of his work. His contributions to the field are recognized through citations in scholarly articles and research papers, highlighting the impact of his innovations in improving solar cell technology.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Sung’s legacy in the field of Polymer Solar Cells is marked by his innovative research and contributions to improving the efficiency and viability of solar energy technologies. His future work is expected to continue advancing the state-of-the-art in Polymer Solar Cells, potentially leading to new breakthroughs in renewable energy. His ongoing research at the National Atomic Research Institute and other institutions will likely contribute to further advancements in the field, cementing his role as a key figure in the development of sustainable energy solutions.

POLYMER SOLAR CELLS 

Dr. Yun-Ming Sung’s career is deeply intertwined with the advancement of Polymer Solar Cells. His research and professional endeavors have consistently focused on improving the efficiency and performance of these cells. The integration of Polymer Solar Cells technology into his work reflects his commitment to advancing renewable energy solutions and enhancing the capabilities of Polymer Solar Cells for practical applications. His ongoing contributions continue to drive progress in the field of Polymer Solar Cells and renewable energy technologies.

NOTABLE PUBLICATION

• Dramatic improvement in the stability and mechanism of high-performance inverted polymer solar cells featuring a solution-processed buffer layer

  Citation: 04     Year: 2023

• High transparency and performance slot-die-coated large-area polymer solar module

  Citation: 01     Year: 2023

• Scale-up fabrication and characteristic study of oligomer-like small-molecule solar cells by ambient halogen-free sheet-to-sheet and roll-to-roll slot-die coating

  Citation: 08     Year: 2022

• A micro-cavity forming electrode with high thermal stability for semi-transparent colorful organic photovoltaics exceeding 13% power conversion efficiency

  Citation: 29     Year: 2021

• The effect of ZnO preparation on the performance of inverted polymer solar cells under one sun and indoor light

  Citation: 14    Year: 2021