2019-01-012024-05-17https://scholars.lib.ntu.edu.tw/handle/123456789/674017摘要：近年來，為了因應消費型電子產品市場的迅速增長，可穿戴式電子元件的研發成為產學界紛紛投入的重點方向之一。其研究課題主要著重在如何將軟性電子元件整合於紡織或具生物相容性的可拉伸基材上，其相關整合應用技術被視為現今軟性電子科技發展的關鍵。基於本團隊先前於有機與鈣鈦礦太陽能電池相關研究中所累積之經驗，我們在本計畫中提出開發可拉伸式有機與太陽能電池，並結合介面、感應式電極與元件工程將太陽能電池整合至可拉伸式紡織基材上，開發一具自供電感測系統的智慧紡織。本計畫主要分成三個部分：首先，我們將從介面及光敏材料設計出發，致力於發展高效能的可拉伸式有機太陽能電池；其次，將進一步結合感應式電極替換元件中常見的剛性電極以製備具自供電特徵的光感測器。在此研究階段，電極工程將與材料設計工程同步進行。最後，於成功開發出可拉伸式感測型有機太陽能電池後，將著重在元件與紡織或具生物相容性的可拉伸基材之整合並投入實際應用。藉由與其他功能型元件於紡織上形成之積體電路，我們期望能建立並網型之具自供電系統的智慧紡織。<br> Abstract: In recent years, the development of wearable electronic devices has received great attention in response to the rapid growth of consumer electronics. In this regard, the exploitations of soft electronic components with integratable capabilities onto the textile or the biocompatible flexible substrate become very important and are considered as the key technology nowadays. In this proposal, we are targeting to developing stretchable self-powered sensing systems based on our previous experience accumulated in organic solar cells (OSCs). This proposal will be divided into three main aspects including material engineer and device integration. First, we will focus on the development of efficient stretchable OSCs by combining the interface and photoactive material engineering. Afterward, we will further replace the regular rigid electrodes by using stretchable electrode with sensing capability to realize self-powered, sensing devices. In this stage, the electrode design will be explored in parallel with the material engineering. After the successful demonstration of sensible stretchable OSCs, we will finally focus on its device integration on textile for practical applications. By connecting with other functional device on textile, we aim to establish an on-grid self-powering system for E-textiles.可拉伸式元件介面工程感測電極元件整合智慧紡織Stretchable organic solar cellsinterfacial materialssensing electrodedevice integrationE-textiles