Stretchable, Washable, and Ultrathin Triboelectric Nanogenerators as Skin‐Like Highly Sensitive Self‐Powered Haptic Sensors

Accompanying the boom in multifunctional wearable electronics, flexible, sustainable, and wearable power sources are facing great challenges. Here, a stretchable, washable, and ultrathin skin‐inspired triboelectric nanogenerator (SI‐TENG) to harvest human motion energy and act as a highly sensitive self‐powered haptic sensor is reported. With the optimized material selections and structure design, the SI‐TENG is bestowed with some merits, such as stretchability (≈800%), ultrathin (≈89 µm), and light‐weight (≈0.23 g), which conformally attach on human skin without disturbing its contact. A stretchable composite electrode, which is formed by homogenously intertwining silver nanowires (AgNWs) with thermoplastic polyurethane (TPU) nanofiber networks, is fabricated through synchronous electrospinning of TPU and electrospraying of AgNWs. Based on the triboelectrification effect, the open‐circuit voltage, short‐circuit current, and power density of the SI‐TENG with a contact area of 2 × 2 cm2 and an applied force of 8 N can reach 95 V, 0.3 µA, and 6 mW m−2, respectively. By integrating the signal‐processing circuits, the SI‐TENG with excellent energy harvesting and self‐powered sensing capability is demonstrated as a haptic sensor array to detect human actions. The SI‐TENG exhibits extensive applications in the fields of human–machine interface and security systems. In this work, a simple and low‐cost method to fabricate a stretchable and ultrathin skin‐inspired triboelectric nanogenerator (SI‐TENG) through synchronous electrospraying and electrospinning techniques is presented. Based on the optimized material selections and structure design, the SI‐TENG with the features of ultrathin, transparency, light‐weight, and excellent stretchability can be used as a self‐powered haptic sensor, such as game controllers.