Affiliation:
1. Institute for Microelectronics and Microsystems – National Research Council (IMM‐CNR) Via C. Olivetti 2, Agrate Milan 20864 Italy
2. Fondazione Istituto Italiano di Tecnologia (IIT) Via Morego, 30 Genova 16136 Italy
3. BeDimensional S.p.A Via Lungotorrente Secca 30R Genova 16163 Italy
Abstract
AbstractThe integration of 2D materials in triboelectric nanogenerators (TENGs) is known to increase the mechanical‐to‐electrical power conversion efficiency. 2D materials are used in TENGs with multiple roles as triboelectric material, charge‐trapping fillers, or as electrodes. Here, novel TENGs based on few‐layers graphene (FLG) electrodes and stable gel electrolytes composed of liquid phase exfoliated 2D‐transition metal dichalcogenides and polyvinyl alcohol are developed. TENGs embedding FLG and gel composites show competitive open‐circuit voltage (≈ 300 V), instant peak power (530 mW m−2), and stability (> 11 months). These values correspond to a seven‐fold higher electrical output compared to TENGs embedding bare FLG electrodes. It is demonstrated that such a significant improvement depends on the high electrical double‐layer capacitance (EDLC) of FLG electrodes functionalized with the gel composites. The wet encapsulation of the TENGs is shown to be an effective strategy to increase their power output further highlighting the EDLC role. It is also shown that the EDLC is dependent upon the transition metal (W vs Mo) rather than the relative abundance of 1T or 2H phases. Overall, this work lays down the roots for novel sustainable electrochemical‐(e)‐TENGs developed exploiting strategies typically used in electrochemical capacitors.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science