Creation of novel composite: Flexible magnetic and conductive muscovite

Yi Cheng Chen, Yu Cheng Cheng, Wei En Ke, Bo Sheng Chen, Chang Yang Kuo, Tzu Yi Yang, Yu Lun Chueh, Ya Jing Hu, Jiunn Yuan Lin, Ying Hao Chu*


研究成果: Article同行評審


The advancement of flexible technology, such as wearable devices, foldable mobile, and automobiles, has entered a new era. Recently, MICAtronics using flexible muscovite carriers has been introduced as a novel area for flexible technology. The muscovite substrate addresses challenges such as thermal budget and chemical stability, offering outstanding environmental stability and an alternative approach to the prevalent polymer-based soft technology. However, the role of muscovite in these studies has been limited to serving as substrates. We expand the scope of muscovite applications by proposing a new form called “intercalated muscovite.” In this study, we insert transition metal ions, creating a novel layout of muscovite substrates. Subsequent heat treatment and controlled atmospheres can generate various forms of inserted species. These intercalated systems reveal new physical properties of muscovite substrates, offering a fresh avenue for MICAtronics.

期刊Materials Today Advances
出版狀態Published - 12月 2023


深入研究「Creation of novel composite: Flexible magnetic and conductive muscovite」主題。共同形成了獨特的指紋。