Proof of concept of flexible supercapacitors fabricated with carbon gels and MnO2 printed on carbon cloth

Up to now, the scientific community has achieved a significant progress in designing innovative, flexible and conductive materials, paving the way for the advancement of cutting-edge electronic devices dedicated for smart wearable applications. Herein, the introduction of carbon cloth (CC)-based platform for energy storage devices was adopted for nanomaterial coating and improved multilayer adhesion. Using carbon xerogel (CX) and manganese dioxide (MnO2) printed on CC, an asymmetric supercapacitor was developed, achieving a high specific capacitance of 213 F g−1, energy density of 24 Wh·kg−1, at a power density of 180 W kg−1, and low self-discharge rate with a voltage retention of 72 % after 22 h. This work paves the way for the adoption of carbon cloth thanks to its outstanding features as a promising and flexible platform to drive the development of next-generation smart and wearable electronic devices dedicated for healthcare and environmental monitoring applications.