Protonating imine sites of polyaniline for aqueous zinc batteries.
Han YanXinjian MuYu SongZengming QinDi GuoXiaoqi SunXiao-Xia LiuPublished in: Chemical communications (Cambridge, England) (2022)
PANI materials usually contain a certain amount of insulating components, e.g. , imine (N-) and amine (-NH-) groups, limiting the electrochemical redox of PANI. Herein, we proposed a simple protonation strategy to activate the redox couples of the PANI cathode for aqueous Zn batteries, during which the insulating N- groups are partially converted to the conductive emeraldine salt (polarons -NH + -), endowing PANI more active sites and enhanced conductivity. The A-PANI electrode realizes efficient transitions of leucoemeraldine/emeraldine and emeraldine/pernigraniline, achieving a high discharge capacity of 183 mA h g -1 , long life span, and good energy density of 178 W h kg -1 at the power density of 680 W kg -1 . These values are significantly superior to those of the original PANI electrode, indicating the high efficiency of the proposed strategy. This simple protonation method could be applicable for many electrochemical devices, such as supercapacitors, sensors, and batteries.