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Written by the inventors and leading experts of this new field, the
book results from the International Symposium on "Atomic Switch:
Invention, Practical use and Future Prospects" which took place in
Tsukuba, Japan on March 27th - 28th, 2017. The book chapters cover
the different trends from the science and technology of atomic
switches to their applications like brain-type information
processing, artificial intelligence (AI) and completely novel
functional electronic nanodevices. The current practical uses of
the atomic switch are also described. As compared with the
conventional semiconductor transistor switch, the atomic switch is
more compact (~1/10) with much lower power consumption (~1/10) and
scarcely influenced by strong electromagnetic noise and radiation
including cosmic rays in space (~1/100). As such, this book is of
interest to researchers, scholars and students willing to explore
new materials, to refine the nanofabrication methods and to explore
new and efficient device architectures.
Written by the inventors and leading experts of this new field, the
book results from the International Symposium on "Atomic Switch:
Invention, Practical use and Future Prospects" which took place in
Tsukuba, Japan on March 27th - 28th, 2017. The book chapters cover
the different trends from the science and technology of atomic
switches to their applications like brain-type information
processing, artificial intelligence (AI) and completely novel
functional electronic nanodevices. The current practical uses of
the atomic switch are also described. As compared with the
conventional semiconductor transistor switch, the atomic switch is
more compact (~1/10) with much lower power consumption (~1/10) and
scarcely influenced by strong electromagnetic noise and radiation
including cosmic rays in space (~1/100). As such, this book is of
interest to researchers, scholars and students willing to explore
new materials, to refine the nanofabrication methods and to explore
new and efficient device architectures.
Supra-materials Nanoarchitectonics provides the latest information
on design at the nanoscale, presenting a range of the new
challenges that arise as the manipulation techniques that work at
the macro- and micro-scale do not work at the nanoscale. The term
nanoarchitectonics, coined by Japan's National Institute for
Materials Science (NIMS), describes the organized interactions
required at the nanoscale, replacing the traditional
structure-building approach used in materials design.
Nanoarchitectonics approaches material design via a profound
understanding of the interactions between individual nanostructures
and their organization. As the nanoarchitectonics paradigm fits
well with the discipline of supramolecular chemistry, this book
brings together these two approaches to demonstrate the potential
of supramolecular nanoarchitectonics in the development of new
materials, both at the nano- and macro-scale.
Advanced Supramolecular Nanoarchitectonics provides the latest
information on design at the nanoscale, presenting a range of the
new challenges that arise when the manipulation techniques that
work at the macro- and micro-scale do not work at the nanoscale.
Nanoarchitectonics approaches material design via a profound
understanding of the interactions between individual nanostructures
and their organization. This book presents the more advanced
features of this research paradigm, focusing on the materials
fabrication of self-defined nanostructures and demonstrating
possible applications of these fabricated materials.
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