Biography
(只提供英文版)
- Chair Professor of Chemistry and Photovoltaic Technology in Department of Chemistry at City University of Hong Kong
- Research interests center on the fundamental mechanisms, device architectures, and practical applications of perovskite electronics
- RFS project — aims to devise a comprehensive strategy for flexible perovskite electronics by integrating fundamental research, material innovation, and real-world applications. First, it will examine crack formation and propagation in metal halide perovskites under mechanical stress, employing theoretical simulations to optimize composition and processing. Innovative linking molecules will be introduced to mitigate cracking during bending. Next, the project will evaluate fracture energy at interfaces between perovskite and charge transport layers and designs novel interfacial materials to enhance mechanical resilience and device longevity. Building on these findings, small-area flexible perovskite solar cells will be fabricated and optimized to exceed 25% power conversion efficiency with robust mechanical stability. Various substrates and encapsulation methods will be explored to improve large-area device durability to meet commercialization standards. Finally, the work will integrate flexible perovskite solar cells with lithium-ion batteries, targeting over 20% overall system efficiency for portable energy harvesting and storage. By addressing mechanical and stability challenges and advancing design strategies for perovskite materials and interfaces, this research will pave the way for reliable, high-performance flexible electronics and next-generation energy solutions.
- Awards and Honours:
- RGC Research Fellow (2025)
- NSFC Excellent Young Scientists Fund (Hong Kong and Macau)
Project Title
(只提供英文版)
- Advanced Perovskite Technologies for Flexible Electronics: Mechanisms, Interfaces, and Application Optimization
赞词
香港城市大学化学系讲座教授朱宗龙教授,荣获研资局研究学者计划资助,肯定他卓越研究成就,表彰其在材料科学领域的贡献,以及其研究项目对未来科技发展的潜在影响。
朱教授凭借其题为「先进钙钛矿技术用于柔性电子学:机理、界面和应用优化」的研究项目获选。这项具开创性的研究,专注于解决阻碍钙钛矿材料在柔性电子设备中广泛应用的关键技术瓶颈。研资局的评选委员会对其研究计划的学术价值与创新潜力给予了高度赞扬。
透过这项为期五年的资助,朱教授将能够深入探索钙钛矿材料的基础机理,并优化其在柔性界面上的性能,藉此推动新一代光电子学的发展。这项资助将为朱教授提供宝贵的资源,使其能全心投入这项关键研究,同时也将有助于培育本地年轻研究人才。朱教授及其团队的持续努力,将进一步巩固香港作为全球科研创新中心的领导地位,为香港和全球的科学发展贡献重要力量。












