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Written by leading international experts, this book summarizes the
advances in sample preparation, design and construction of dangling
bond atomic scale wires and logic gate circuits at the surface of a
passivated semi-conductor. Individual chapters cover different
aspects of the sample fabrication from research and development
point of view, present design and construction as well as
microscopic and spectroscopic characteristics of single dangling
atomic wires and logic gates, and discuss the tools for design of
large atomic scale circuit on a surface.This edited volume includes
selected contributions from the "International Workshop on Atomic
Wires" held in Krakow in September 2014 completed and updated with
most current results up to mid-2016, and offers for the first time
an overview of up-to-date knowledge in the burgeoning field of
atomic scale circuits. The book will appeal to researchers and
scholars interested in nanoscience and its various sub-fields
including, in particular, molecular electronics, atomic scale
electronics and nanoelectronics.
Written by leading international experts, this book summarizes the
advances in sample preparation, design and construction of dangling
bond atomic scale wires and logic gate circuits at the surface of a
passivated semi-conductor. Individual chapters cover different
aspects of the sample fabrication from research and development
point of view, present design and construction as well as
microscopic and spectroscopic characteristics of single dangling
atomic wires and logic gates, and discuss the tools for design of
large atomic scale circuit on a surface.This edited volume includes
selected contributions from the "International Workshop on Atomic
Wires" held in Krakow in September 2014 completed and updated with
most current results up to mid-2016, and offers for the first time
an overview of up-to-date knowledge in the burgeoning field of
atomic scale circuits. The book will appeal to researchers and
scholars interested in nanoscience and its various sub-fields
including, in particular, molecular electronics, atomic scale
electronics and nanoelectronics.
This book is a first attempt to merge two different communities:
scientists and technologists. Therefore, it is not a general
overview covering all the fields of nanopackaging, but is mainly
focused on two topics. The first topic deals with atomic scale
devices or circuit requirements, as well as related recent
technological developments; for example, surface science
engineering and atomic scale interconnects studies. The second main
part of the book brings CNT nano-materials solutions for resolving
interconnect or thermal management problems in microelectronics
device packaging. This book is not just useful for those who
attended the International Workshop on Nanopackaging in Grenoble,
but can provide valuable information to scientists and
technologists in the nanopackaging community.
Single Molecular Machines and Motors brings together different
approaches and strategies to design, synthesize and study single
molecular machines and motors in a multidisciplinary way. Written
by leading international experts, this book summarizes the advances
in the field through a number of disciplines. Some contributions
describe molecular chemistry such as organic, aromatics, and
coordination chemistry while others address theoretical chemistry
in a predictive way or through post-experimental modelling.
Experimental physics with extensive use of scanning probe
microscopy (STM and AFM) is discussed for examining one single
molecule. This book is aimed at those who are interested in the
rapidly growing field of molecular machines and motors acting and
studied at the single-molecule scale. The goal of the authors and
editors is to provide the reader with an up-to-date summary while
also offering future perspectives on the field.
Imaging and Manipulating Molecular Orbitals celebrates the 60th
anniversary of the first image of a single molecule by E. Müller.
This book summarizes the advances in the field from various groups
around the world who use a broad range of experimental techniques:
scanning probe microscopy (STM and AFM), field emission microscopy,
transmission electron microscopy, attosecond tomography and
photoemission spectroscopy. The book is aimed at those who are
interested in the field of molecular orbital imaging and
manipulation. Included in the book are a variety of experimental
techniques in combination with theoretical approaches which
describe the spatial distribution and energies of the molecular
orbitals. The goal is to provide the reader with an up-to-date
summary on the latest developments in this field from various
points of view.
This volume documents the first International Workshop on Atomic
Scale Interconnection Machines organised by the European Integrated
Project AtMol in June 2011 in Singapore. The four sessions,
discussed here in revised contributions by high level speakers,
span the subjects of multi-probe UHV instrumentation, atomic scale
nano-material nanowires characterization, atomic scale surface
conductance measurements, surface atomic scale mechanical
machineries. This state-of-the-art account brings academic
researchers and industry engineers access to the tools they need to
be at the forefront of the atomic scale technology revolution.
Have you ever puzzled over how to perform Boolean logic at the
atomic scale? Or wondered how you can carry out more general
calculations in one single molecule or using a surface dangling
bond atomic scale circuit? This volume gives you an update on the
design of single molecule devices, such as recitfiers, switches and
transistors, more advanced semi-classical and quantum boolean gates
integrated in a single molecule or constructed atom by atom on a
passivated semi-conductor surface and describes their
interconnections with adapted nano-scale wiring. The main
contributors to the field of single molecule logic gates and
surface dangling bond atomic scale circuits theory and design, were
brought together for the first time to contribute on topics such as
molecule circuits, surface dangling bond circuits, quantum
controlled logic gates and molecular qubits. Contributions in this
volume originate from the Barcelona workshop of the AtMol
conference series, held from January 12-13 2012.
This book is a first attempt to merge two different communities:
scientists and technologists. Therefore, it is not a general
overview covering all the fields of nanopackaging, but is mainly
focused on two topics. The first topic deals with atomic scale
devices or circuit requirements, as well as related recent
technological developments; for example, surface science
engineering and atomic scale interconnects studies. The second main
part of the book brings CNT nano-materials solutions for resolving
interconnect or thermal management problems in microelectronics
device packaging. This book is not just useful for those who
attended the International Workshop on Nanopackaging in Grenoble,
but can provide valuable information to scientists and
technologists in the nanopackaging community.
Imaging and Manipulating Molecular Orbitals celebrates the 60th
anniversary of the first image of a single molecule by E. Muller.
This book summarizes the advances in the field from various groups
around the world who use a broad range of experimental techniques:
scanning probe microscopy (STM and AFM), field emission microscopy,
transmission electron microscopy, attosecond tomography and
photoemission spectroscopy. The book is aimed at those who are
interested in the field of molecular orbital imaging and
manipulation. Included in the book are a variety of experimental
techniques in combination with theoretical approaches which
describe the spatial distribution and energies of the molecular
orbitals. The goal is to provide the reader with an up-to-date
summary on the latest developments in this field from various
points of view.
Have you ever puzzled over how to perform Boolean logic at the
atomic scale? Or wondered how you can carry out more general
calculations in one single molecule or using a surface dangling
bond atomic scale circuit? This volume gives you an update on the
design of single molecule devices, such as recitfiers, switches and
transistors, more advanced semi-classical and quantum boolean gates
integrated in a single molecule or constructed atom by atom on a
passivated semi-conductor surface and describes their
interconnections with adapted nano-scale wiring. The main
contributors to the field of single molecule logic gates and
surface dangling bond atomic scale circuits theory and design, were
brought together for the first time to contribute on topics such as
molecule circuits, surface dangling bond circuits, quantum
controlled logic gates and molecular qubits. Contributions in this
volume originate from the Barcelona workshop of the AtMol
conference series, held from January 12-13 2012.
This volume documents the first International Workshop on Atomic
Scale Interconnection Machines organised by the European Integrated
Project AtMol in June 2011 in Singapore. The four sessions,
discussed here in revised contributions by high level speakers,
span the subjects of multi-probe UHV instrumentation, atomic scale
nano-material nanowires characterization, atomic scale surface
conductance measurements, surface atomic scale mechanical
machineries. This state-of-the-art account brings academic
researchers and industry engineers access to the tools they need to
be at the forefront of the atomic scale technology revolution.
This book presents mechanics miniaturization trends explored step
by step, starting with the example of the miniaturization of a
mechanical calculator. The ultra-miniaturization of mechanical
machinery is now approaching the atomic scale. In this book,
molecule-gears, trains of molecule-gears, and molecule motors are
studied -one molecule at a time- on a solid surface, using scanning
probe manipulation protocols and in solution as demonstrated in the
European project "MEMO". All scales of mechanical machinery are
presented using the various lithography techniques currently
available, from the submillimeter to the nanoscale. Researchers and
nanomechanical engineers will find new inspirations for the
construction of minute mechanical devices which can be used in
diverse hostile environments, for example under radiation
constraints, on the surface membrane of a living cell or immersed
in liquid. The book is presented in a format accessible for
university students, in particular for those at the Master and PhD
levels.
This book presents mechanics miniaturization trends explored step
by step, starting with the example of the miniaturization of a
mechanical calculator. The ultra-miniaturization of mechanical
machinery is now approaching the atomic scale. In this book,
molecule-gears, trains of molecule-gears, and molecule motors are
studied -one molecule at a time- on a solid surface, using scanning
probe manipulation protocols and in solution as demonstrated in the
European project "MEMO". All scales of mechanical machinery are
presented using the various lithography techniques currently
available, from the submillimeter to the nanoscale. Researchers and
nanomechanical engineers will find new inspirations for the
construction of minute mechanical devices which can be used in
diverse hostile environments, for example under radiation
constraints, on the surface membrane of a living cell or immersed
in liquid. The book is presented in a format accessible for
university students, in particular for those at the Master and PhD
levels.
Single Molecular Machines and Motors brings together different
approaches and strategies to design, synthesize and study single
molecular machines and motors in a multidisciplinary way. Written
by leading international experts, this book summarizes the advances
in the field through a number of disciplines. Some contributions
describe molecular chemistry such as organic, aromatics, and
coordination chemistry while others address theoretical chemistry
in a predictive way or through post-experimental modelling.
Experimental physics with extensive use of scanning probe
microscopy (STM and AFM) is discussed for examining one single
molecule. This book is aimed at those who are interested in the
rapidly growing field of molecular machines and motors acting and
studied at the single-molecule scale. The goal of the authors and
editors is to provide the reader with an up-to-date summary while
also offering future perspectives on the field.
The nanosciences and their companion nanotechnologies are a hot
topic all around the world. For some, they promise developments
ranging from nanobots to revolutionary new materials. For others,
they raise the specter of Big Brother and of atomically modified
organisms (AMOs). This book is a counterbalance to spin and
paranoia alike, asking us to consider what the nanosciences really
are.Nanosciences are not just a branch of materials sciences, a
common misrepresentation fostered in the funding wars. Nor should
nanotechnology be confused with miniaturization, a convergence of
microelectronics, biotechnology and lab-on-chip techniques. These
misconceptions arise from a well-orchestrated US policy dating from
the mid-1990s, in which the instrument that lies at the heart of
the true nanoscience revolution - the scanning tunneling microscope
(STM) - plays just a minor part. These issues are covered here for
the first time in a book by a scientist who holds two Feynman
prizes in nanotechnology and who has played a significant role in
the birth of the nanosciences. Writing from the cutting edge and
with an understanding of the real nature of nanoscience, the author
provides a scientific and historical perspective on the subject, a
response to the misplaced ethical concerns of objectors and to the
scaremongering of the popular press.
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