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Supercapacitors: Materials, Design, and Commercialization provides
a comprehensive overview of the latest research trends and
opportunities in supercapacitors, and particularly in terms of
novel materials and electrolytes.The book will address the
transformation in supercapacitive technology from double layer
capacitance to battery-type capacitance, providing a clear
understanding of the conceptual differences between various charge
storage processes for supercapacitors, charge storage based on
materials and electrolytes, and calculation for capacitance for
these charge processes. Detailed chapters discuss recent
developments in materials, such as carbons, chalcogenides, MXene
and phosphorene, various polymer nanocomposites, and
polyoxometalates for supercapacitors. This is followed by in-depth
coverage of electrolytes, including the evolution of electrolytes
from aqueous to water-in-salt electrolytes and their role in
improving the energy density of supercapacitors. The final part of
the book examines the role of artificial intelligence in the design
of supercapacitors, and latest developments in translating novel
supercapacitor technologies from laboratory-scale research to a
commercialization.This is a valuable resource for advanced
students, researchers, and scientists in the fields of energy
storage, electrical engineering, materials science, and chemical
engineering, as well as engineers and R&D personnel working
with supercapacitors or energy storage in an industrial setting.
Metal Oxides in Supercapacitors addresses the fundamentals of metal
oxide-based supercapacitors and provides an overview of recent
advancements in this area. Metal oxides attract most of the
materials scientists use due to their excellent physico-chemical
properties and stability in electrochemical systems. This
justification for the usage of metal oxides as electrode materials
in supercapacitors is their potential to attain high capacitance at
low cost. After providing the principles, the heart of the book
discusses recent advances, including: binary metal oxides-based
supercapacitors, nanotechnology, ternary metal oxides,
polyoxometalates and hybrids. Moreover, the factors affecting the
charge storage mechanism of metal oxides are explored in detail.
The electrolytes, which are the soul of supercapacitors and a
mostly ignored character of investigations, are also exposed in
depth, as is the fabrication and design of supercapacitors and
their merits and demerits. Lastly, the market status of
supercapacitors and a discussion pointing out the future scope and
directions of next generation metal oxides based supercapacitors is
explored, making this a comprehensive book on the latest,
cutting-edge research in the field.
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