Synthesizing high-performance electrode material            for energy storage applications, involves incorporating            magnesium oxide nanoparticles into carbon matrix            through sol-gel, hydrothermal, or chemical vapor            deposition techniques

	Synthesizing high-performance electrode material for energy storage applications, involves incorporating magnesium oxide nanoparticles into carbon matrix through sol-gel, hydrothermal, or chemical vapor deposition techniques
	GUPTA R K ; GNANAM S ; MANIKANDAN S ; RAO M S ; RAJAPPA S ; VINUTH M ; KUMAR N M ; SRIDEVI N ; SIDDHARTHAN N
	2024-12-30
专利权人	GUPTA R K (GUPT-Individual) ; GNANAM S (GNAN-Individual) ; MANIKANDAN S (MANI-Individual) ; RAO M S (RAOM-Individual) ; RAJAPPA S (RAJA-Individual) ; VINUTH M (VINU-Individual) ; KUMAR N M (KUMA-Individual) ; SRIDEVI N (SRID-Individual) ; SIDDHARTHAN N (SIDD-Individual)
申请日期	2024-12-30
专利号	IN202441104651-A
成果简介	NOVELTY - Synthesizing high-performance electrode material involves incorporating magnesium oxide (MgO) nanoparticles into a carbon matrix through sol-gel, hydrothermal, or chemical vapor deposition (CVD) techniques to form an MgO-carbon nanocomposite. USE - Method for synthesizing a high-performance electrode material used in lithium-ion, sodium-ion, or hybrid energy storage devices, demonstrating improved charge/discharge rates and long-term reliability, large-scale production method for MgO-carbon nanocomposites, where sol-gel, hydrothermal, or CVD techniques used are scalable for industrial manufacturing (all claimed). ADVANTAGE - The method has excellent conductivity and mechanical properties of carbon-based materials, offers a novel composite material with enhanced performance in energy storage applications. The MgO-carbon nanocomposites are designed to improve capacity, cycling stability, and charge/discharge rates, optimizes the electrochemical properties of the composite, offers a costeffective, scalable, and environmentally sustainable solution to the growing demand for high-performance energy storage systems, and ensures cost-effective production of high-performance electrode materials. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for: (1) a high-performance electrode material, which exhibits enhanced cycling stability, maintains 80 wt.% of its initial capacity after 500 cycles of charge/discharge; (2) large-scale production method for MgO-carbon nanocomposites; and (3) an energy storage device.
IPC 分类号	B82Y-030/00 ; H01M-010/054 ; H01M-010/0565 ; H01M-004/133 ; H01M-004/36
国家	印度
专业领域	材料科学
语种	英语
成果类型	专利
文献类型	科技成果
条目标识符	http://119.78.100.226:8889/handle/3KE4DYBR/13695
专题	中国科学院新疆生态与地理研究所
作者单位	1.GUPTA R K (GUPT-Individual) 2.GNANAM S (GNAN-Individual) 3.MANIKANDAN S (MANI-Individual) 4.RAO M S (RAOM-Individual) 5.RAJAPPA S (RAJA-Individual) 6.VINUTH M (VINU-Individual) 7.KUMAR N M (KUMA-Individual) 8.SRIDEVI N (SRID-Individual) 9.SIDDHARTHAN N (SIDD-Individual)
推荐引用方式 GB/T 7714	GUPTA R K,GNANAM S,MANIKANDAN S,et al. Synthesizing high-performance electrode material for energy storage applications, involves incorporating magnesium oxide nanoparticles into carbon matrix through sol-gel, hydrothermal, or chemical vapor deposition techniques. IN202441104651-A[P]. 2024.

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