The
present investigation elucidates a simple hydrothermal method
for preparing nanostructured bismuth oxide (Bi
2
O
3
) and carbon quantum dot (CQD) composite using spoiled (denatured)
milk-derived CQDs. The formation of the CQD–Bi
2
O
3
composite was confirmed by UV–vis absorption, steady-state
emission, and time-resolved fluorescence spectroscopy studies. The
crystal structure and chemical composition of the composite were examined
by X-ray diffraction, Fourier transform infrared spectroscopy, Raman
spectroscopy, and thermogravimetric analysis. The surface morphology
and the particle size distribution of the CQD–Bi
2
O
3
were examined using field emission scanning electron
microscope and high-resolution transmission electron microscope observations.
As an anode material in lithium-ion battery, the CQD–Bi
2
O
3
composite exhibited good electrochemical activity
and delivered a discharge capacity as high as 1500 mA h g
–1
at 0.2C rate. The supercapacitor properties of the CQD–Bi
2
O
3
composite electrode revealed good reversibility
and a high specific capacity of 343 C g
–1
at 0.5
A g
–1
in 3 M KOH. The asymmetric device constructed
using the CQD–Bi
2
O
3
and reduced graphene
oxide delivered a maximum energy density of 88 Wh kg
–1
at a power density of 2799 W kg
–1
, while the power
density reached a highest value of 8400 W kg
–1
at
the energy density of 32 Wh kg
–1
. The practical
viability of the fabricated device is demonstrated by glowing light-emitting
diodes. It is inferred that the presence of conductive carbon network
has significantly increased the conductivity of the oxide matrix,
thereby reducing the interfacial resistance that resulted in excellent
electrochemical performances.
Hydrothermally-derived Co3O4/CoO@carbon nanocomposite with spike-like cobalt oxide anchored on the conductive carbon network showed excellent supercapacitor and photocatalytic performances.
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