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Performance optimization of Nd-doped LaNiO3 as an electrode material in supercapacitors

Here we present an electrochemically efficient, perovskite series with general formula, La1-xNdxNiO3 (x = 0, 0.05, 0.1, 0.15) for use as electrode material in supercapacitors, prepared using cost effective sol–gel auto-combustion method. X-ray diffraction confirmed the phase development and crystal...

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Published in:	Solid state ionics 2023-07, Vol.395, p.116227, Article 116227
Main Authors:	Qayyum, Affifa, Rehman, Muhammad Okash ur, Ahmad, Farooq, Khan, Muhammad Ahmed, Ramay, Shahid M., Atiq, Shahid
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Language:	English
Subjects:	Nd-doped LaNiO3 Perovskites Supercapacitors Transition metal oxides (TMOs)
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creator	Qayyum, Affifa Rehman, Muhammad Okash ur Ahmad, Farooq Khan, Muhammad Ahmed Ramay, Shahid M. Atiq, Shahid
description	Here we present an electrochemically efficient, perovskite series with general formula, La1-xNdxNiO3 (x = 0, 0.05, 0.1, 0.15) for use as electrode material in supercapacitors, prepared using cost effective sol–gel auto-combustion method. X-ray diffraction confirmed the phase development and crystal structure parameters of synthesized samples were determined. Well-defined and uniformly distributed nano-spheres, nano-rods, and nano-size particles were observed using field emission scanning electrode microscopy. The at.% and wt% of the elements in the samples were verified to exist in accordance with their stoichiometric ratios. A detailed electrochemical performance of the novel composite samples was determined using cyclic voltammetry, galvanic charge/discharge, and electrochemical impedance spectroscopy. The electrochemical analysis signified that La0.85Nd0.15NiO3 has surpassed all other composite samples depicting the highest specific capacitance of 64.381 F/g at a lower scan rate of 0.01 Vs−1 through cyclic voltammetry. At the same time, galvanic/discharge, the power density and energy density values came out to be 846.56 W/kg and 20.92 Wh/kg, respectively. This detailed study validates that the composites' pseudo-capacitive nature tends to enlarge their horizon in supercapacitor-based applications. [Display omitted] •An efficient perovskite-based composition with promising super-capacitive performance•Fundamental knowledge of an electrode for supercapacitor•Strategies to enhance the super capacitance•Nd-doped LaNiO3 combines high specific capacitance & high cyclic stability.
doi_str_mv	10.1016/j.ssi.2023.116227
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X-ray diffraction confirmed the phase development and crystal structure parameters of synthesized samples were determined. Well-defined and uniformly distributed nano-spheres, nano-rods, and nano-size particles were observed using field emission scanning electrode microscopy. The at.% and wt% of the elements in the samples were verified to exist in accordance with their stoichiometric ratios. A detailed electrochemical performance of the novel composite samples was determined using cyclic voltammetry, galvanic charge/discharge, and electrochemical impedance spectroscopy. The electrochemical analysis signified that La0.85Nd0.15NiO3 has surpassed all other composite samples depicting the highest specific capacitance of 64.381 F/g at a lower scan rate of 0.01 Vs−1 through cyclic voltammetry. At the same time, galvanic/discharge, the power density and energy density values came out to be 846.56 W/kg and 20.92 Wh/kg, respectively. This detailed study validates that the composites' pseudo-capacitive nature tends to enlarge their horizon in supercapacitor-based applications. 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X-ray diffraction confirmed the phase development and crystal structure parameters of synthesized samples were determined. Well-defined and uniformly distributed nano-spheres, nano-rods, and nano-size particles were observed using field emission scanning electrode microscopy. The at.% and wt% of the elements in the samples were verified to exist in accordance with their stoichiometric ratios. A detailed electrochemical performance of the novel composite samples was determined using cyclic voltammetry, galvanic charge/discharge, and electrochemical impedance spectroscopy. The electrochemical analysis signified that La0.85Nd0.15NiO3 has surpassed all other composite samples depicting the highest specific capacitance of 64.381 F/g at a lower scan rate of 0.01 Vs−1 through cyclic voltammetry. At the same time, galvanic/discharge, the power density and energy density values came out to be 846.56 W/kg and 20.92 Wh/kg, respectively. This detailed study validates that the composites' pseudo-capacitive nature tends to enlarge their horizon in supercapacitor-based applications. 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X-ray diffraction confirmed the phase development and crystal structure parameters of synthesized samples were determined. Well-defined and uniformly distributed nano-spheres, nano-rods, and nano-size particles were observed using field emission scanning electrode microscopy. The at.% and wt% of the elements in the samples were verified to exist in accordance with their stoichiometric ratios. A detailed electrochemical performance of the novel composite samples was determined using cyclic voltammetry, galvanic charge/discharge, and electrochemical impedance spectroscopy. The electrochemical analysis signified that La0.85Nd0.15NiO3 has surpassed all other composite samples depicting the highest specific capacitance of 64.381 F/g at a lower scan rate of 0.01 Vs−1 through cyclic voltammetry. At the same time, galvanic/discharge, the power density and energy density values came out to be 846.56 W/kg and 20.92 Wh/kg, respectively. This detailed study validates that the composites' pseudo-capacitive nature tends to enlarge their horizon in supercapacitor-based applications. [Display omitted] •An efficient perovskite-based composition with promising super-capacitive performance•Fundamental knowledge of an electrode for supercapacitor•Strategies to enhance the super capacitance•Nd-doped LaNiO3 combines high specific capacitance & high cyclic stability.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.ssi.2023.116227</doi></addata></record>
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subjects	Nd-doped LaNiO3 Perovskites Supercapacitors Transition metal oxides (TMOs)
title	Performance optimization of Nd-doped LaNiO3 as an electrode material in supercapacitors
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