2019-01-012024-05-13https://scholars.lib.ntu.edu.tw/handle/123456789/646364摘要：本中心之核心技術的分項重點概述如下:「循環再生材料」(A&B分項)，由非糧食或食品廢棄物精煉出醣類、纖維素或木質素，經由化學官能化後，製備具不同功能性之高分子，並應用於製備綠色電子或生醫高附加價值產品。研究包含開發可循環再生醣類高分子應用於穿戴式電子元件、由食品廢棄物精煉纖維素或木質素，應用於製作印刷電子基材或高性能生醫薄膜、及經由化學法回收利用CO2廢氣製備聚ester-carbonate共聚高性能高分子。「能源材料」(C&D分項)，開發新世代再生能源及儲能所需之關鍵技術，首先著重於新型太陽能電池的材料設計及製程開發，內容包括無鉛鈣鈦礦單晶薄膜製備、環境友善太陽能電催化非鉑金材料開發、具低汙染綠色製程的染敏電池、快速且節能之元件用大氣電漿製程。其次開發高電容量鋰離子電池技術，研究包括正/負極材料、隔離膜、電解質、表面修飾、元件整合及電動車應用測試。「綠色製程」(E分項)，研究重點在於開發綠色電子製程及應用，包括由矽廢棄物的回收利用開發SiO儲能材料與關鍵半導體原料SiCl4與TEOS的製程技術、電子業電鍍/無電鍍廢液減量製程及廢液金屬回收應用及高演色性與廣色域之白光LED量子點元件。<br> Abstract: The core technologies of the center are summarized as follows: [Recycled materials](A&B): We first aim to refine saccharide/lignin or cellulose from the natural wastes, followed by the chemical functionalization to prepare electronic/biomedical high value-added polymers. The main research subjects include recyclable saccharide-based polymers for the wearable electronic components; refining lignin or cellulose from the non-food/food wastes for printed electronic substrates or biomedical films; and preparing high performance ester-carbonate copolymers through the chemical recycling of CO2. [Energy materials](C&D): Develop the key technologies for the new generation of renewable energy and energy storage. We will first focus on developing new materials and process for the new generation solar cells, including the single-crystalline thin-film preparation of lead-free perovskite; exploitation of environmentally friendly solar electro-catalytic non-Pt materials; dye-sensitized solar cells with green fabrication process; and fast, energy-efficient atmospheric plasma process. Next, key materials and processing technologies will be developed for the high-capacity Li-ion battery including the exploitation of materials for cathode/anode, separation membranes, electrolytes, surface modification, device integration, and the application valuation on electric cars. [Green electronic materials](E): The research focuses on the green electronic processes, including recycling Si wastes; exploiting SiO materials for energy storage and developing the green process for the SiCl4 and TEOS key materials for semiconductors; establishing the waste reduction technology of the electro/electroless plating processes and the recycling of waste metals; and fabricating high color rendering and wide color gamut with LED quantum dots.