In
this work, an effective strategy was proposed to improve the
electrochemical performance of nickel–cobalt layered double
hydroxide (NiCo-LDH) by controlling the sulfur doping. The prepared
NiCo-LDH material with a 7.5% mol S dopant compared to LDH (NiCo-LDH-S7.5)
possesses a unique nanosheet spherical structure, so it can expose
more active sites and make better contact with the electrolyte. The
synthesized NiCo-LDH-S7.5 has an outstanding specific capacitance
of 2417.7 F g–1 at 1 A g–1. Meanwhile,
the sulfur dopant significantly improves the electrical conductivity
of the electrode material, enhancing the rate performance of the electrode.
When the current density increases from 1 to 20 A g–1, the electrode retains a specific capacitance of 81.8%. In addition,
we also manufactured an asymmetric supercapacitor using NiCo-LDH-S7.5
and activated carbon as positive and negative electrodes, respectively.
Also, it exhibits an exceptionally high energy density of 73.54 Wh
kg–1 at a power density of 375 W kg–1 and excellent cyclic stability (90.19% performance remained after
5000 cycles at 2 A g–1). The supercapacitor has
been tested to power 88 LEDs (∼2 V) in series, indicating great
potential for practical application.
Bismuth compounds are of interest because of the abundant reserves and high theoretical capacity for use as anodes in supercapacitors. In this work, the bismuth oxycarbonate is synthesized by a...
NiCo layered double hydroxide (NiCo-LDH) is a promising electrode material for supercapacitors due to its extremely high pseudocapacitance. However, the electrochemical stability of NiCo-LDH is not long enough, so it...
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