Title:The Prospective Applications of Arising Nanostructured Dielectric
Materials in Storage of Energy: A Comprehensive Review
Volume: 16
Issue: 1
Author(s): Suryakanta Swain, Himansu Bhusan Samal, Santosh Satpathy, Bikash Ranjan Jena*, Gurudutta Pattnaik, Sheerin Bashar and Sonu Barad
Affiliation:
- School of Pharmacy
and Life Sciences, Centurion University of Technology and Management, Bhubaneswar, 752050, Odisha, India
Keywords:
Energy storage, dielectrics, antiferroelectrics property, glass ceramic, carbon-polymers, graphene.
Abstract:
Background: The manufacture and study of innovative materials that enable the availability
of relevant technologies are vital in light of the energy demands of various human activities
and the need for a substantial shift in the energy matrix.
Objective: A strategy based on the creation of enhanced applications for batteries has been devised
to reduce the conversion, storage, and feeding of renewable energy like fuel cells and electrochemical
capacitors.
Methods: Conductive polymers (CP) can be utilised instead of traditional inorganic chemicals.
Electrochemical energy storage devices with similar capabilities can be built using approaches
based on the production of composite materials and nanostructures.
Results: CP's nanostructuring is notable for its concentration on synergistic coupling with other materials,
which sets it apart from other nanostructures that have been developed in the preceding two
decades. This is due to the fact that, when paired with other materials, their distinctive morphology
and adaptability significantly enhance performance in areas like the suppression of ionic diffusion
trajectories, electronic transport and the improvement of ion penetrability and intercalation spaces.
Conclusion: The present study forecasts the wide-ranging modern applications of diverse
nanostructured dielectric materials along with its future prospectives. The potential contributions of
nanostructured carbon nanotubes to the development of innovative materials for energy storage devices
are also critically discussed in this context, which delivers a summary of the present state of
information on this emerging topic.