posted on 2020-01-23, 14:41authored byJishi Wei, Yongbin Li, Dongmei Dai, Fengtao Zhang, Hongli Zou, Xiaoxiao Yang, Yahui Ji, Bao Li, Xianjun Wei
Electric
double layer capacitors (EDLCs) usually show high rate
performance and long cycling spans but inferior specific capacitance,
which are mainly created by restriction of the charge storage mechanism.
To improve the capacitive performance, traditional methods include
enlarging surface area, optimizing porous structures, and readjusting
functional groups through heteroatom doping to electrode materials.
Besides that, another promising approach is suggested, which is to
enhance surface roughness of the electrode materials for ion storage
and transport. To prove this view, two porous carbon materials were
fabricated by activation–calcination methods, which allowed
the materials to have identical surface area, porous structures, and
surface composition but the surface roughness. Further electrochemical
measurements exhibited that the optimal sample with higher roughness
has remarkable specific capacitance (up to 562 F g–1), and the increment rate is more than 50% when compared with contrast
sample (367 F g–1). Therefore, optimization of the
surface roughness of electrode materials is another efficient route
to make robust EDLCs.