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VOL. 11, ISSUE 1 (2026)
Investigation and performance on the effects of nanomaterials on Lithium-ion battery (LIB)
Authors
Dr. Shishir kumar, Priyanka Singh, Vipin Kumar Singh, R B Singh
Abstract
Development of
lithium-ion storage devices has made nanostructured material which have a huge
surface area, porosity and enhanced reactivity a crucial area of research.
These special qualities allow for novel active processes, shorten the Lithium-ion
transport distance, decrease the specific surface current density and
significantly enhance battery constancy and specific capacity. Additionally, by
reducing internal resistance, composite nanostructures with integrated
electronic conductive channels can boost specific capacities even at high
charge and discharge rates. Employing nanomaterial electrodes in lithium-ion
storage offers evidential changes in energy density, power output, cycle life,
or any combination of these advantages from the standpoint of battery
applications. Nanoparticle or Nano-powder electrode materials such as ultrafine
variants of traditional micron-sized powders were the subject of the first
nanotechnology applications in this area. Due to its conductive qualities,
carbon black was one of the first nanomaterials used in lithium-ion batteries
and has been used ever since the technology's creation. The present research
will examine whether nanomaterials affect the lifespan and performance of
lithium-ion batteries (LIBs), with an emphasis on the ways in which these
cutting edge materials improve the lifetime and performance of batteries.
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Pages:123-125
How to cite this article:
Dr. Shishir kumar, Priyanka Singh, Vipin Kumar Singh, R B Singh "Investigation and performance on the effects of nanomaterials on Lithium-ion battery (LIB)". International Journal of Academic Research and Development, Vol 11, Issue 1, 2026, Pages 123-125
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