Dr. Moonyong Kim, UNSW Sydney, Australia
Dr. Moonyong Kim is a Postdoctoral Fellow at UNSW Sydney, specializing in photovoltaic (PV) technology and sustainability π. Holding a PhD in Photovoltaic and Solar Energy Engineering, he has led interdisciplinary projects with over $5.1M in funding π°. His research focuses on sustainable PV manufacturing, lifecycle assessments (LCA), and innovations for terawatt-scale production π. Dr. Kim has published 70+ articles and contributed to patents on PV efficiency π. He collaborates with global industry leaders like Trina Solar and JA Solar, driving advancements in material recycling and emissions reduction. He is a member of the Korean Academy of Scientists and Engineers π
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Publication Profile
Google Scholar
Academic and Professional Background π
Dr. Moonyong Kim is a Postdoctoral Fellow at UNSW Sydney, specializing in the sustainability of photovoltaic (PV) module manufacturing and lifecycle assessments (LCA) π. He holds a PhD in Photovoltaic and Solar Energy Engineering and has successfully led interdisciplinary projects in PV systems, securing over $5.1M in research funding π°. With expertise in Python programming and teaching LCA standards, he has published 70+ research articles and contributed to patents. His work focuses on sustainable PV manufacturing and innovations for terawatt-scale production π, fostering collaborations with leading global PV industry partners like Trina Solar and JA Solar π.
Research and Innovations π¬
Dr. Moonyong Kim has been involved in research projects with over $5.1M in funding, focusing on sustainable photovoltaic (PV) manufacturing and innovative PV systems π. His key projects include ARENA initiatives for terawatt-scale PV sustainability, AI-based hetero tandem solar cell development (in collaboration with NRF Korea-Australia), and sustainability roadmap development for JA Solar π. With more than 150 citations in top-tier journals, his work has significantly impacted the field of photovoltaic research π. Dr. Kimβs research continues to drive advancements in PV systems, contributing to both academic knowledge and industry applications π.
Areas of Research β‘
Dr. Moonyong Kimβs research focuses on advancing photovoltaic (PV) technology and improving the sustainability of solar energy systems π. His work includes lifecycle assessment (LCA) to evaluate the environmental impact of PV manufacturing π. He is dedicated to innovations in terawatt-scale manufacturing, striving to make large-scale solar production more efficient and sustainable π. His research also covers defect engineering to enhance PV performance and material recycling to minimize waste and improve resource efficiency β»οΈ. Through these efforts, Dr. Kim aims to contribute to the future of clean energy and sustainable manufacturing practices π±.
Publication Top Notes Β
- Evidence of an identical firing-activated carrier-induced defect in monocrystalline and multicrystalline silicon – 197 citations (2017) π
- Design considerations for multi-terawatt scale manufacturing of existing and future photovoltaic technologies – 176 citations (2021) β‘
- Hydrogen induced degradation: A possible mechanism for light-and elevated temperature-induced degradation in n-type silicon – 141 citations (2018) π
- Advanced hydrogenation of dislocation clusters and boron-oxygen defects in silicon solar cells – 133 citations (2015) ποΈ
- A four-state kinetic model for the carrier-induced degradation in multicrystalline silicon: Introducing the reservoir state – 103 citations (2018) π±
- The role of hydrogenation and gettering in enhancing the efficiency of nextβgeneration Si solar cells – 102 citations (2017) π
- Device Design Rules and Operation Principles of High-Power Perovskite Solar Cells for Indoor Applications – 101 citations (2020) π‘
- Hydrogen-induced degradation: Explaining the mechanism behind light-and elevated temperature-induced degradation in n-and p-type silicon – 85 citations (2020) β‘
- Hydrogen-induced degradation – 78 citations (2018) π
- Evaluating the Impact of SiNx Thickness on Lifetime Degradation in Silicon – 63 citations (2019) π