A perspective on laser-induced graphene for micro-supercapacitor application

Due to its unique features, laser-induced graphene (LIG) can be considered as disruptive technology for creating a few-layer graphene-based film that received much attention in the field of flexible electronics. Among all, energy storage, catalysis, sensing, and separation are the main applications that have been investigated in recent years with large improvements in the respective device performance. In particular, miniaturized supercapacitor-usually called a micro-supercapacitor (mu SC)-is the most investigated field in which LIG can strongly provide outstanding results concerning the state of the art simplification of the fabrication procedure and intrinsically allowing the flexibility of the device. However, many open points still limit the possible full exploitation of this technology in the energy storage sector. This paper provides a concise overview of the LIG application in mu SCs suggesting where the community should direct efforts to enhance the results together with associated challenges. Published under an exclusive license by AIP Publishing.

Automated summary

LIG has great potential and flexibility in the field of flexible electronics, especially in the application of micro-supercapacitors, although there are still challenges to be overcome.