Scalable fabrication of electrochemically oxidized and moderately reduced graphite paper electrode for flexible energy storage with ultrahigh rate capability

摘要

The introduction of surface functional groups onto graphite can provide additional pseudocapacitance for supercapacitors. However, the compensation for the loss of electrical conductivity arising from the destruction of the pi-pi conjugation remains a big challenge. Here, the graphite paper is electrochemically oxidized first, followed by the mild reduction using hydroiodic acid to afford the largely exfoliated and moderately reduced sample (noted as MOGP-4). The as-prepared MOGP-4 not only has the abundant oxygenous groups, but also preserves the highly conductive network (sp(2) carbon). Owing to the good conductivity (1.14 x 10(3)S m(-1)), MOGP-4 exhibits a high rate capability of 93% (from 18.3 mF cm(-2) to 17 mF cm(-2)) as the current density increases from 0.5 to 10 mA cm(-2) and predominant cycling performance. Furthermore, the flexible solid-state supercapacitors (SSCs) based on MOGP-4 with different sizes are assembled and deliver excellent durability, high flexibility and superior rate capability. The high electrochemical performances of the as-fabricated supercapacitors should envision promising applications for energy storage devices.