Ever since the discovery of graphene, two-dimensional layered
materials (2DLMs) have been the central tool of the materials
research community. The reason behind their importance is their
superlative and unique electronic, optical, physical, chemical and
mechanical properties in layered form rather than in bulk form. The
2DLMs have been applied to electronics, catalysis, energy,
environment, and biomedical applications. The following topics are
discussed in the book's fifteen chapters: - The research status of
the 2D metal-organic frameworks and the different techniques used
to synthesize them. - 2D black phosphorus (BP) and its practical
application in various fields. - Reviews the synthesis methods of
MXenes and provides a detailed discussion of their structural
characterization and physical, electrochemical and optical
properties, as well as applications in catalysis, energy storage,
environmental management, biomedicine, and gas sensing. - The
carbon-based materials and their potential applications via the
photocatalytic process using visible light irradiation. - 2D
materials like graphene, TMDCs, few-layer phosphorene, MXene in
layered form and their heterostructures. - The structure and
applications of 2D perovskites. - The physical parameters of
pristine layered materials, ZnO, transition metal dichalcogenides,
and heterostructures of layered materials are discussed. - The
coupling of graphitic carbon nitride with various metal sulfides
and oxides to form efficient heterojunction for water purification.
- The structural features, synthetic methods, properties, and
different applications and properties of 2D zeolites. - The methods
for synthesizing 2D hollow nanostructures are featured and their
structural aspects and potential in medical and non-medical
applications. - The characteristics and structural aspects of 2D
layered double hydroxides (LDHs) and the various synthesis methods
and role of LDH in non-medical applications as adsorbent, sensor,
catalyst, etc. - The synthesis of graphene-based 2D layered
materials synthesized by using top-down and bottom-up approaches
where the main emphasis is on the hot-filament thermal chemical
vapor deposition (HFTCVD) method. - The different properties of 2D
h-BN and borophene and the various methods being used for the
synthesis of 2D h-BN, along with their growth mechanism and
transfer techniques. - The physical properties and current progress
of various transition metal dichalcogenides (TMDC) based on
photoactive materials for photoelectrochemical (PEC) hydrogen
evolution reaction. - The state-of-the-art of 2D layered materials
and associated devices, such as electronic, biosensing,
optoelectronic, and energy storage applications.
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