It is the cover of the scientific journal Sustainable Energy & Fuels ( IF 5.503 )
Authors: ANDRES VELASCO, YU KYOUNG RYU, ALBERTO BOSCÁ, ANTONIO LADRÓN-DE-GUEVARA, ELIJAH HUNT, JINGHAN ZUO, JORGE PEDRÓS, FERNANDO CALLE, JAVIER MARTÍNEZ
Citation: Sustainable Energy & Fuels
Link: DOI: 10.1039/d0se01849j
Supercapacitors are being increasingly used as energy storage systems. Graphene, with its huge specific surface area, superior mechanical flexibility and outstanding electrical properties, constitutes an ideal candidate for the next generation of wearable and portable devices with enhanced performance. Since Stoller described the first graphene supercapacitor in 2008, significant developments have been made during this last decade in the development of new graphene-based electrodes. In this way, the specific capacitance has been improved from 135 to 2585 F g−1 and the cyclability has been enhanced from a capacitance retention of just over 80% after 1000 cycles to almost 100% after 20 000 cycles. This review describes how 3-dimensional porous graphene electrodes have been improved recently, from using large area processing techniques to microsupercapacitors. Specifically, (a) the use of graphene foam to obtain large area electrodes, (b) the development of the direct laser writing technique for fast, one-step, and low-cost production of graphene-based supercapacitors, (c) their miniaturization in the form of integrated microsupercapacitors and (d) their functionalization with different pseudocapacitive and electric double-layer capacitor materials to obtain higher capacitance values will be the topics discussed in this perspective.