2020-08-012024-05-18https://scholars.lib.ntu.edu.tw/handle/123456789/713467摘要：本研究主要針對碳纖維為主來進行多功能儲能結構複合材料的研究。截至目前，文獻所研究出的超級電容複合材料已可達到多功能的需求，困難的是如何同時兼具良好的力學行為與電化學特性，研究結果常顧此失彼。本計畫主要希望透過四大研究主軸：(1)電解質材料研究；(2)電極材料研究；(3)分隔層材料研究；及(4)製程與分析技術改進，來系統性的研發並同時提升多功能儲能結構複合材料的結構強度及儲電能力。儲能複合材料的出現，對於微形用電裝置有機會帶來不小的衝擊，將有機會應用於離岸風電及電動車等新興產業。本研究為嶄新嘗試，期望結合不同領域的研究團隊，以踏實且系統化的基礎研究做為根基，自下而上式的逐步進行多功能複合材料的研發與改良。最終期望經由本研究計畫之執行，進一步培養多領域知識人才，未來可協助產業界開拓台灣在全球儲能複材產業的版圖，並構築出有商機且對社會有貢獻的應用。<br> Abstract: This study mainly focused on carbon fiber-based multifunctional energy storage structural composites (ESSC). The ESSCs have been developed so far are capable of meeting the needs of multi-functionality. However, for the ESSC to possess both good mechanical behavior and electrochemical characteristics still remains difficult. In this project, the key elements of our investigation include: (1) electrolytes; (2) electrodes; (3) separators; and (4) packaging and analysis techniques. Further investigation of machining, connectivity, power systems design, and through life service issues will need to be considered. We anticipate that the ESSCs can be potentially applied to the offshore wind turbine and electrical vehicle industries. Bringing such multifunctional systems to reality requires a multi-disciplinary collaboration between electrochemists, materials scientists, composite engineers and electrical power systems engineers. Ultimately, we hope the accomplishment of this project will shed lights on development of electrical energy storage devices, as well as the quest for more efficient, safer systems with improved specific properties driven by increasing energy requirements.碳纖維複材超級電容多功能材料結構承載儲能carbon fiber compositesupercapacitormultifunctional materialsmechanical loadenergy storage