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The increasing demand in home and industry for electronic devices
has encouraged designers and researchers to investigate new devices
and circuits using new materials that can perform several tasks
efficiently with low IC (integrated circuit) area and low power
consumption. Furthermore, the increasing demand for portable
devices intensifies the search to design sensor elements, an
efficient storage cell, and large-capacity memory elements.
Electrical and Electronic Devices, Circuits and Materials: Design
and Applications will assist the development of basic concepts and
fundamentals behind devices, circuits, materials, and systems. This
book will allow its readers to develop their understanding of new
materials to improve device performance with even smaller
dimensions and lower costs. Additionally, this book covers major
challenges in MEMS (micro-electromechanical system)-based device
and thin-film fabrication and characterization, including their
applications in different fields such as sensors, actuators, and
biomedical engineering. Key Features: Assists researchers working
on devices and circuits to correlate their work with other
requirements of advanced electronic systems. Offers guidance for
application-oriented electrical and electronic device and circuit
design for future energy-efficient systems. Encourages awareness of
the international standards for electrical and electronic device
and circuit design. Organized into 23 chapters, Electrical and
Electronic Devices, Circuits and Materials: Design and Applications
will create a foundation to generate new electrical and electronic
devices and their applications. It will be of vital significance
for students and researchers seeking to establish the key
parameters for future work.
This book is written to provide a brief introduction about
nanoscience and technology in various aspects. In particular,
Author has emphasized on carbon materials (i.e., fullerenes, carbon
nanotubes along with their unique properties and potential
application in different areas of every day life), and devices that
make use of nanotechnology. In addition, Attention has been drawn
towards various microscopes used in nanotechnology. I hope this
book will be useful for undergraduate and post-graduate students
who are interested to venture into the field of nanotechnology.
This book is designed as an introduction for the graduate students
and researchers who want to understand the trends of MEMS materials
and devices. Particularly, this book describes the experimental
view of the fabrication of a thin membrane over a conical V-shaped
cavity using front side lateral etching technology that proposes a
novel front side etching fabrication process for silicon based
piezoresistive micro- pressure sensor. As far as the fabrication
process is concerned, this technique successfully accomplished a
front side etching process laterally to replace the conventional
back-side bulk micro-machining. This novel structure of micro
pressure sensor can achieve the distinguishing features of the chip
size reduction and fabrication costs degradation. This book covers
the principles, tools and methods for determining the reliability
of micro-electro-mechanical (MEMS)materials, components and
devices. Hopefully, this book will be very beneficial to the
students of MEMS and NEMS courses.
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