Electrochemical performances of asymmetric aqueous supercapacitor based on porous Cu3Mo2O9 petals and La2Mo3O12 nanoparticles fabricated through a simple co-precipitation method

[Display omitted] •Cu3Mo2O9 petals and La2Mo3O12 particles prepared by a simple co-precipitation route.•Cu3Mo2O9 and La2Mo3O12 exhibits capacity of 71.94 and 195.85 C g−1 at 2.5 A g−1.•ASC device shows retention of 119.4% of initial capacitance after 5000 cycles.•Energy density of ASC is found to be...

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Published inApplied surface science Vol. 512; p. 145648
Main Authors Gajraj, V., Mariappan, C.R.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.05.2020
Subjects
Copper molybdenum oxide
Energy storage mechanism
Hybrid supercapacitor
Lanthanum molybdenum oxide
Copper molybdenum oxide
Hybrid supercapacitor
Energy storage mechanism
Lanthanum molybdenum oxide
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Abstract [Display omitted] •Cu3Mo2O9 petals and La2Mo3O12 particles prepared by a simple co-precipitation route.•Cu3Mo2O9 and La2Mo3O12 exhibits capacity of 71.94 and 195.85 C g−1 at 2.5 A g−1.•ASC device shows retention of 119.4% of initial capacitance after 5000 cycles.•Energy density of ASC is found to be in the range of 21.84–2.92 Wh kg−1.•Power density is obtained in 1.61–10.86 kW kg−1 range. Present work shows the electrochemical performances of asymmetric aqueous supercapacitor device based on Cu3Mo2O9 and La2Mo3O12 as a positive and a negative electrode respectively. The Cu3Mo2O9 and La2Mo3O12 were prepared by a simple co-precipitation route within 20 min and post annealing method. Crystalline phase purity of the electrodes is confirmed with powder X-ray diffraction, Raman and X-ray photoelectron spectroscopy techniques. The agglomerated nanoparticles and porous petals-like microstructures are observed for La2Mo3O12 and Cu3Mo2O9 respectively. The specific capacity of La2Mo3O12 and Cu3Mo2O9 is found to be 195.85 and 71.94 C g−1 at 2.5 A g−1 respectively. Charge storage mechanism of the electrodes is elucidated via Dunn’s and Trasatti’s approaches. The asymmetric supercapacitor (ASC) device exhibits a specific capacitance of 61.45 F g−1 at 2 A g−1. The ASC shows retention of 119.4% of initial specific capacitance after 5000 charging and discharging cycles and exhibits coulombic efficiency of 95.5% throughout the 5000 cycles. The ASC stores energy density of 21.84 Wh kg−1 at power density of 1.61 kW kg−1 and sustains the energy density as 2.92 Wh kg−1 at high power density of 10.86 kW kg−1.
AbstractList [Display omitted] •Cu3Mo2O9 petals and La2Mo3O12 particles prepared by a simple co-precipitation route.•Cu3Mo2O9 and La2Mo3O12 exhibits capacity of 71.94 and 195.85 C g−1 at 2.5 A g−1.•ASC device shows retention of 119.4% of initial capacitance after 5000 cycles.•Energy density of ASC is found to be in the range of 21.84–2.92 Wh kg−1.•Power density is obtained in 1.61–10.86 kW kg−1 range. Present work shows the electrochemical performances of asymmetric aqueous supercapacitor device based on Cu3Mo2O9 and La2Mo3O12 as a positive and a negative electrode respectively. The Cu3Mo2O9 and La2Mo3O12 were prepared by a simple co-precipitation route within 20 min and post annealing method. Crystalline phase purity of the electrodes is confirmed with powder X-ray diffraction, Raman and X-ray photoelectron spectroscopy techniques. The agglomerated nanoparticles and porous petals-like microstructures are observed for La2Mo3O12 and Cu3Mo2O9 respectively. The specific capacity of La2Mo3O12 and Cu3Mo2O9 is found to be 195.85 and 71.94 C g−1 at 2.5 A g−1 respectively. Charge storage mechanism of the electrodes is elucidated via Dunn’s and Trasatti’s approaches. The asymmetric supercapacitor (ASC) device exhibits a specific capacitance of 61.45 F g−1 at 2 A g−1. The ASC shows retention of 119.4% of initial specific capacitance after 5000 charging and discharging cycles and exhibits coulombic efficiency of 95.5% throughout the 5000 cycles. The ASC stores energy density of 21.84 Wh kg−1 at power density of 1.61 kW kg−1 and sustains the energy density as 2.92 Wh kg−1 at high power density of 10.86 kW kg−1.
ArticleNumber 145648
Author Mariappan, C.R.
Gajraj, V.
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Keywords Copper molybdenum oxide
Hybrid supercapacitor
Energy storage mechanism
Lanthanum molybdenum oxide
Language English
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Snippet [Display omitted] •Cu3Mo2O9 petals and La2Mo3O12 particles prepared by a simple co-precipitation route.•Cu3Mo2O9 and La2Mo3O12 exhibits capacity of 71.94 and...
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StartPage 145648
SubjectTerms Copper molybdenum oxide
Energy storage mechanism
Hybrid supercapacitor
Lanthanum molybdenum oxide
Title Electrochemical performances of asymmetric aqueous supercapacitor based on porous Cu3Mo2O9 petals and La2Mo3O12 nanoparticles fabricated through a simple co-precipitation method
URI https://dx.doi.org/10.1016/j.apsusc.2020.145648
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