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This book provides readers with an overview of the design,
fabrication, simulation, and reliability of nanoscale semiconductor
devices, MEMS, and sensors, as they serve for realizing the
next-generation internet of things. The authors focus on how the
nanoscale structures interact with the electrical and/or optical
performance, how to find optimal solutions to achieve the best
outcome, how these apparatus can be designed via models and
simulations, how to improve reliability, and what are the possible
challenges and roadblocks moving forward.
This book provides readers with an overview of the design,
fabrication, simulation, and reliability of nanoscale semiconductor
devices, MEMS, and sensors, as they serve for realizing the
next-generation internet of things. The authors focus on how the
nanoscale structures interact with the electrical and/or optical
performance, how to find optimal solutions to achieve the best
outcome, how these apparatus can be designed via models and
simulations, how to improve reliability, and what are the possible
challenges and roadblocks moving forward.
The book summarizes Ting Lei's PhD study on a series of novel
conjugated polymers for field-effect transistors (FETs). Studies
contain many aspects of polymer FETs, including backbone design,
side-chain engineering, property study, conformation effects and
device fabrication. The research results have previously scattered
in many important journals and conferences worldwide. The book is
likely to be of interest to university researchers, engineers and
graduate students in materials sciences and chemistry who wish to
learn some principles, strategy, and applications of polymer FETs.
This book is an up-to-date text covering topics in utilizing
hydrogen bonding for constructing functional architectures and
supramolecular materials. The first chapter addresses the control
of photo-induced electron and energy transfer. The second chapter
summarizes the formation of nano-porous materials. The following
two chapters introduce self-assembled gels, many of which exhibit
unique functions. Other chapters cover the advances in
supramolecular liquid crystals and the versatility of hydrogen
bonding in tuning/improving the properties and performance of
materials. This book is designed to bring together in a single
volume the most important and active fields of hydrogen bonding
strategy for designing supramolecular materials. The book will be a
valuable resource for graduates and researchers working in the
fields of supramolecular chemistry and materials sciences.
Zhan-Ting Li, PhD, is a Professor of Organic Chemistry at the
Department of Chemistry, Fudan University, China Li-Zhu Wu, PhD, is
a Professor of Organic Chemistry at the Technical Institute of
Physics and Chemistry, Chinese Academy of Sciences, China
This book covers the advances in the studies of
hydrogen-bonding-driven supramolecular systems made over the past
decade. It is divided into four parts, with the first introducing
the basics of hydrogen bonding and important hydrogen bonding
patterns in solution as well as in the solid state. The second part
covers molecular recognition and supramolecular structures driven
by hydrogen bonding. The third part introduces the formation of
hollow and giant macrocycles directed by hydrogen bonding, while
the last part summarizes hydrogen bonded supramolecular polymers.
This book is designed to bring together in a single volume the many
important aspects of hydrogen bonding supramolecular chemistry and
will be a valuable resource for graduates and researchers working
in supramolecular and related sciences. Zhan-Ting Li, PhD, is a
Professor of Organic Chemistry at the Department of Chemistry,
Fudan University, China. Li-Zhu Wu, PhD, is a Professor of Organic
Chemistry at the Technical Institute of Physics and Chemistry,
Chinese Academy of Sciences, China.
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