本研究團隊致力研製新穎可撓式光電材料與元件，並聚焦於以下關鍵核心技術之開發：

• 新穎材料：利用表面化學與官能化技術，開發一系列柔性功能性材料，包括：無機氧化物、有機分子與有機-無機奈米複合材料。

• 薄膜塗佈製程：開發先進量產塗佈製程技術，實現高品質薄膜。

• 元件工程：探索上述材料與技術於新世代前瞻元件的應用層面，期能提升元件的長期穩定度、性能與實用性，應用的元件類型包括：太陽能電池、光感測元件、自供電元件、生醫與化學感測元件、發光二極體等。

Our group aims to develop technologies for reliable flexible & stretchable electronic devices by using high quality nano-scale functional materials, which enable new biomedical and energy systems with novel/multiple functions. We mainly utilize "Surface Modification & Functionalization" strategy to tailor the functionality of organic/hybrid nano-materials & explore their applications by "Device Engineering". These approaches are multidisciplinary, involving expertise and knowledge in chemistry, materials science, physics, electric engineering, and biochemistry. In particular, we aim to pursue our research in the following areas:

• Synthesis, assembly, and functionalization of nano-materials (with different dimensionality)  

• Development of new nanotechnologies and tools for tailoring interactions at the interfaces

• Investigation of molecular behaviors at the nano-structured environment different from bulk

• Implementation of nanotechnologies & nano-materials into energy harvesting devices or wearable devices