Abstract
The growing interest and demand for energy storage applications have
significantly encouraged the development of a broad range of functional 2D materials.
Owing to the extraordinary properties including 2D lamellar structure, larger interlayer
space, mechanical strength, high thermal and electrical conductivity, and negative zetapotential, carbides/nitrides/carbonitrides of transition metal, usually known as MXenes
have received the interest of researchers in the development of environmentally
friendly materials for storage and conversion of energy. In this chapter, we focused on
the MXene, their methods of preparation, the progress of development of various
MXenes, and their modification for the storage of energy. Here, we have discussed the
various storage devices for energy including batteries and superconductors. This
chapter offers scientific inspiration and literature for the rational design and synthesis
of high-capacity MXenes and their composites that can fulfill the increased demand for
next-generation energy storage devices.