Inorganic Nanomaterials for Supercapacitor Design
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Among electrode materials, inorganic materials have received vast consideration owing to their redox chemistry, chemical stability, high electrochemical performance, and high-power applications. These exceptional properties enable inorganic-based materials to find application in high-performance energy conversion and storage. The current advances in nanotechnology have uncovered novel inorganic materials by various strategies and their different morphological features may serve as a rule for future supercapacitor electrode design for efficient supercapacitor performance. Inorganic Nanomaterial...
Among electrode materials, inorganic materials have received vast consideration owing to their redox chemistry, chemical stability, high electrochemical performance, and high-power applications. These exceptional properties enable inorganic-based materials to find application in high-performance energy conversion and storage. The current advances in nanotechnology have uncovered novel inorganic materials by various strategies and their different morphological features may serve as a rule for future supercapacitor electrode design for efficient supercapacitor performance. Inorganic Nanomaterials for Supercapacitor Design depicts the latest advances in inorganic nanomaterials for supercapacitor energy storage devices. Key Features: ¿ Provides an overview on the supercapacitor application of inorganic-based materials. ¿ Describes the fundamental aspects, key factors, advantages, and challenges of inorganic supercapacitors. ¿ Presents up-to-date coverage of the large, rapidly growing, and complex literature on inorganic supercapacitors. ¿ Surveys current applications in supercapacitor energy storage. ¿ Explores the new aspects of inorganic materials and next-generation supercapacitor systems.
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