ARCHIVES
VOL. 11, ISSUE 1 (2026)
Role of surface modification in enhancing electrochemical properties of nanomaterials for battery applications
Authors
Dr. Shishir kumar, Akhand Pratap Singh, Vipin Kumar Singh, Priyanka Singh, R B Singh
Abstract
Nanomaterials have emerged as promising
electrode materials for high performance batteries due to their unique physico-chemical
properties. However, the high surface area and surface reactivity of
nanomaterials can lead to undesired side reactions and poor cycling stability.
Surface modification has proven to be an effective strategy to address these
challenges and enhance the electrochemical properties of nanomaterials for
battery applications. This manuscript provides a comprehensive overview of the
recent progress in surface modification of nanomaterials for battery electrodes.
Various surface modification techniques, including coating, doping,
functionalization and core shell structuring are discussed in detail. The
impact of surface modification on the electrochemical performance, including
capacity, rate capability and cycling stability is systematically analyzed. The
underlying mechanisms of surface modification in improving the electrochemical
properties are elucidated. Further more, the challenges and future perspectives
of surface modified nanomaterials for advanced battery systems are highlighted.
This paper aims to provide valuable insights into the design and optimization
of high performance battery electrodes based on surface modified nanomaterials.
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Pages:96-101
How to cite this article:
Dr. Shishir kumar, Akhand Pratap Singh, Vipin Kumar Singh, Priyanka Singh, R B Singh "Role of surface modification in enhancing electrochemical properties of nanomaterials for battery applications". International Journal of Advanced Scientific Research, Vol 11, Issue 1, 2026, Pages 96-101
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