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Engineering advanced mesoporous nanomaterials for high performance supercapacitors: A review
| Citace: |
PANDEY, M.; DEEPTHI, JK.; DESHMUKH, KAR.; NALINI, V.; MANOBALAN, S.; SUMANGALA, TP.; PORE, OC.; LOHAR, GM. Engineering advanced mesoporous nanomaterials for high performance supercapacitors: A review. Surfaces and Interfaces, 2025, roč. 65, č. MAY 15 2025, s. nestránkováno. ISSN 2468-0230.
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| Druh: | ČLÁNEK |
| Jazyk publikace: | eng |
| Anglický název: | Engineering advanced mesoporous nanomaterials for high performance supercapacitors: A review |
| Rok vydání: | 2025 |
| Autoři: | Mayank Pandey , Jayan K. Deepthi , Dr. Kalim Abdul Rashid Deshmukh , V. Nalini , S. Manobalan , T. P. Sumangala , O. C. Pore , G. M. Lohar |
| Abstrakt EN: | Mesoporous nanomaterials refer to a class of materials that possess a well-defined porous structure at the nanometer scale. These materials exhibit a substantial surface area and an orderly arrangement of interconnected pores, typically ranging in diameter from 2 to 50 nanometers. The pore size of mesoporous nanomaterials falls between the microporous range (less than 2 nanometers) and the macroporous range (greater than 50 nanometers). On the other hand, The exceptional characteristics of mesoporous nanomaterials enable rapid ion diffusion, a substantial specific surface area, and enhanced sites for adsorption and reactions. Consequently, they offer a promising solution for the fabrication of high-performance electrode and catalyst materials for nextgeneration energy storage and conversion devices. This review primarily offers a brief discussion about various mesoporous nanomaterials and their recent advancements in supercapacitor applications. Secondly, the review discusses various methods of synthesizing mesoporous nanomaterials with a particular focus on templatebased, template-free, and chemical approaches. Lastly, it explores the applications of mesoporous nanomaterials and their recent developments in cutting-edge supercapacitors, followed by a discussion of the key challenges and future prospects of these nanomaterials in energy storage field. |
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