Journal
JOURNAL OF INORGANIC AND ORGANOMETALLIC POLYMERS AND MATERIALS
Volume 32, Issue 11, Pages 4284-4294Publisher
SPRINGER
DOI: 10.1007/s10904-022-02439-1
Keywords
MoO3; Band gap; BET isotherm; Specific capacitance; Impedance spectroscopy
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In this study, the research focused on MoO3 nanoparticles doped with copper as an efficient supercapacitor electrode material for the development of electrochemical charge storage devices. Through various analysis methods including powder X-ray diffraction, scanning electron microscopy, infrared and Raman spectroscopy, UV-vis diffuse reflectance spectroscopy, and measurement of specific surface area, the structure and performance of the synthesized nanoparticles were investigated. The results showed that 5% wt Cu doped MoO3 nanoparticles exhibited the highest specific capacitance value.
With the objective of development of electrochemical charge storage devices, currently the research in this field is centred on the study of MoO3 nanoparticles doped with copper as an efficient supercapacitor electrode material. The synthesized nanoparticles were examined by powder X-ray diffraction which determined the metastable hexagonal phase of MoO3 and their morphologies were examined using scanning electron microscopy displaying regularly arranged well-defined microrods. The typical vibrational bands of Mo-O were identified from Infra-red and Raman spectral analysis. The ultra violet diffuse reflectance spectra revealed the decrease in optical band gap from 2.96 to 2.78 eV with an increase in Cu concentration. The surface area was recorded to be higher for 5% wt Cu doped nanoparticles (14 m(2)/g) which was examined from Brunauer-Emmett-Teller (BET) isotherms. Electrochemical behaviour of the nanoparticles was probed by cyclic voltammetry (CV) and electrochemical impedance spectroscopy measurements for which a maximum specific capacitance (C-sp) value of 530 Fg(-1) was achieved for 5% wt Cu doped MoO3 nanoparticles.
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