Flexible Sponge‐Based Nanogenerator for Energy Harvesting from Land and Water Transportation

Abstract

AbstractTriboelectric nanogenerator (TENG) devices with high robustness are promising in collecting powerful energy. In this study, highly elastic and pressure‐resistance sponge fabricated TENG capable of adapting to high strength impact in land and water transportation and scalable for any shape is demonstrated for harvesting wave energy and mechanical energy. The polydimethylsiloxane sponge prepared by sacrificial template method has interconnected network and large size ratio of cavity‐wall suitable for contact and separation. The operation modes of self‐contact and extra‐contact collaborating with MXene in electron transfer provide options for different operating conditions. The polydopamine‐MXene modification of the sponge enables higher output due to the combination of the electronegativity, excellent adhesion, and antioxidant ability. Sponges are used to collect mechanical energy and applied for TENG‐powered cathodic protection, making the 304 stainless steel (304 SS, Φ = 2 mm) electrode enter a thermodynamic stable state. What's more, the work also tries the universal strategies of program monitoring wave in the water tank and harvests the mechanical energy created by cars and passers‐by, which enrich the applications of sponge TENG.