Realizing intrinsically stretchable transistors with high current drivability, high mobility, small feature size, low-power and the potential for mass production is essential for advancing stretchable electronics a critical step forward....
Flexible and stretchable electronic (FSE) transistors create various novel applications. Carbon nanotubes possess high intrinsic mobility and exceptional mechanical and optical characteristics, which lead to a great potential as channel and electrodes in FSE transistors. At the same time, gate dielectric is also required to be intrinsically flexible/stretchable and integratable. However, few high‐performance solutions have been reported. By adopting polyvinyl alcohol (PVA)/SiO2 hybrid layer as dielectric, the integration of high‐performance intrinsically flexible/stretchable carbon‐nanotube‐based thin film transistors is proposed and realized simply by traditional photolithography‐etching and low‐temperature solution processes. The PVA/SiO2 dielectric simultaneously provides a relatively high‐k value, improves the carrier conduction interface, increases the carbon nanotube (CNT) density, and protects the PVA from plasma damage. Soft transistors with carbon nanotube channel and electrodes exhibit carrier mobility of 14 cm2 V−1 s−1 within an operation voltage of 0.3 V. These transistors show a small bending radius of 3 mm, and the stretchable transistors can withstand 50% strain with no significant electrical degradation observed, when measured in situ and along different directions for more than 1000 cycles. This work provides a solution for soft transparent transistor integration, indicating promising applicability to soft circuits, displays, and wearable electronics.
In recent years, stretchable electronics have attracted great attention because of their broad application prospects such as in the field of wearable electronics, skin-like electronics, medical transplantation and human–machine interaction.
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