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Journal of Materials Science: Materials in Electronics

Erschienen in:

02.09.2020

Impact of phase segregation on optical and electrochemical property of BiPO₄ nanostructures for energy storage applications

verfasst von: Prakash Chand, Aman Joshi, Vishal Singh

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 19/2020

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Abstract

In the present paper, we report the influence of phase segregation (hexagonal and monoclinic phase) of facile microwave-assisted BPO (BiPO₄) nanostructures on optical and electrochemical properties for supercapacitor applications. The XRD patterns reveal pure phase formation of both the samples of BiPO₄ synthesized at 300 °C and 600 °C (JCPDS #15-0766 and JCPDS #43-0637). Phase transition of BiPO₄ from hexagonal to monoclinic phase obtained by sintering the sample (BP600) at 600 °C. The FWHM values of the X-ray diffraction peaks observed to decrease with an increase in sintering temperature, which can be ascribed to the enhancement of the crystallite size. The synthesized samples of BiPO₄ are in the nanometer dimension, which also revealed through FESEM examination. FTIR, Raman, and PL spectroscopy also revealed the crystal structure symmetry distinction among the hexagonal and monoclinic BiPO₄ phase. Specific capacity calculated from GCD (galvanostatic charge and discharge) analysis for BP300 and BP600 samples is 1074 Cg⁻¹ and 451 Cg⁻¹, correspondingly, at the current density of 1 Ag⁻¹. The investigation divulges that the phase segregation plays a considerable utility in tuning the electrochemical performance of BiPO₄ nanostructures as active electrode material for next-generation electrochemical capacitors application.

Vorheriger Artikel SnO2 nanoparticles synthesized with Citrus aurantifolia and their performance in photocatalysis

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Titel: Impact of phase segregation on optical and electrochemical property of BiPO4 nanostructures for energy storage applications
verfasst von: Prakash Chand
Aman Joshi
Vishal Singh
Publikationsdatum: 02.09.2020
Verlag: Springer US
Erschienen in: Journal of Materials Science: Materials in Electronics / Ausgabe 19/2020
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI: https://doi.org/10.1007/s10854-020-04243-4

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