Robust multi‐walled carbon nanotubes@thermoplastic polyurethane porous films with conductive fabrics for wearable triboelectric nanogenerators

Abstract

AbstractFor sustainable wearable applications, triboelectric nanogenerators (TENGs) should have the features of flexibility, robustness, biocompatibility, and integration. For this purpose, flexible TENGs were proposed using thermoplastic polyurethane (TPU) film with a porous structure and multi‐walled carbon nanotubes (MWCNT) was incorporated to enhance the output performance by forming microcapatitors. The conductive fabric was embedded in the friction layer as electrodes, convenient for integration and wearing. Benefiting from the porous structure and microcapatitor effect, the results showed that the output voltage and current of TENG based on the MWCNT@TPU porous composite film increased to 41 V, and 12.4 μA when the concentration of TPU was 18 wt% and the concentration of MWCNT was 0.3 wt%, from the original 9 V and 1.5 μA for TENG with dense TPU film. The harvested electric energy was enough to light up 148 LEDs or 18 COBs, as well as charging capacitors for powering micro‐electronics. In addition, the TENG could be used for sensing emergency situations and identifying objects. Generally, the designed TENG provides new insights into investigating porous materials with flexibility for high performance energy harvesters.Highlights A wearable, integratable and durable triboelectric layer was developed. The triboelectric layer was optimized by incorporating carbon nanotubes. The outputs of TENG were improved by porous structure and microcapatitor effect. The TENG had a great potential in energy harvesting and protective alarm system.