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Microwave synthesis of magnesium phosphate-rGO as an effective electrode for supercapacitor application

超级电容器 电极 材料科学 微波食品加热 纳米技术 磷酸镁 化学 电化学 冶金 计算机科学 电信 物理化学
作者
S. Mohammed Eliyas,R. Yuvakkumar,G. Ravi,S. Arun Metha
出处
期刊:Zeitschrift für Physikalische Chemie [De Gruyter]
标识
DOI:10.1515/zpch-2023-0492
摘要

Abstract Transition metal phosphate based materials is being used for energy storage because of P–O covalent bond which facilitates more storage compared to other transition metals and this covalent bond enhanced the electrochemical performance for supercapacitor applications. Pure magnesium phosphate (Mg 3 (PO 4 ) 2 ) were synthesized via microwave synthesis as the composite varies with rGO (MgPO-XrGO) X =25,50,75,100mg . The prepared composite materials were examined employing XRD, Raman, FT-IR, SEM and XPS studies. Electrochemical studies (CV, EIS, GCD) of three electrode system for the prepared electrodes were performed using Biologic SP-150 with 2M (H 2 SO 4 ) as electrolyte. From the XRD results, triclinic structured MgPO was confirmed (JCPDS card #35–0329) and rGO has enhanced the crystallinity of MgPO composite. From Raman analyses, the well graphitization nature of rGO in composite MgPO was identified and from XPS analysis chemical composition of the elements was analyzed. The FT-IR fundamental modes of vibrations of PO 4 3 ${\text{PO}}_{4}^{3-}$ ( γ 1 , γ 3 , γ 4 ) were obtained. The electrochemical analysis of the prepared material such as pure and composite materials showed better performance. The high specific capacitance was obtained for MgPO-50rGO because MgPO has high coordination with rGO. As Mg 2+ oxidation state has high chemical reactivity compared to other earth metals and other advantage is P–O covalent bond that enhanced the performance of the electrode. By facilitating these advantages, rGO is included as composite to develop the electrode to favor the practical applications. By using the optimum level rGO composite with MgPO 4 -50rGO a better new candidate was successfully developed for supercapacitor applications. The fabricated MgPO-50rGO//Activate carbon full cell set up exhibited the specific capacitance 61 Fg −1 at 1 Ag −1 , 21.7 Wh kg −1 energy density and 790.0 W kg −1 power densities and explored outstanding capacitive retention in 2 electrode full cell setup cyclic stability of 99.1 % over the 5000 cycles.

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