posted on 2017-06-13, 00:00authored byYi Zhao, Jinzhang Liu, Bin Wang, Jiangbo Sha, Yan Li, Dezhi Zheng, Mojtaba Amjadipour, Jennifer MacLeod, Nunzio Motta
A novel approach
to improve the specific capacitance of reduced graphene oxide (rGO)
films is reported. We combine the aqueous dispersion of liquid-crystalline
GO incorporating salt and urea with a blade-coating technique to make
hybrid films. After drying, stacked GO sheets mediated by solidified
NaCl and urea are hydrothermally reduced, resulting in a nanoporous
film consisting of rumpled N-doped rGO sheets. As
a supercapacitor electrode, the film exhibits a high gravimetric specific
capacitance of 425 F g–1 and a record volumetric
specific capacitance of 693 F cm–3 at 1 A g–1 in 1 M H2SO4 aqueous electrolyte
when integrated into a symmetric cell. When using Li2SO4 aqueous electrolyte, which can extend the potential
window to 1.6 V, the device exhibits high energy densities up to 35
Wh kg–1, and high power densities up to 104 W kg–1. This novel strategy to intercalate solidified
chemicals into stacked GO sheets to functionalize them and prevent
them from restacking provides a promising route toward supercapacitors
with high specific capacitance and energy density.