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In this monograph, the graphene-based field-effect transistor (FET)
biosensors are shown to be an emerging sensing platform. Divided
into two parts the first set of chapters are devoted to basic
knowledge of graphene, graphene FET and its biosensing. In the
second part of this book the applications of graphene FET
biosensors combined with various biotechnologies are presented. As
well as discussing the existing technologies the authors also
introduce their own ideas and concepts. Finally the remaining
problems in graphene FET biosensors are discussed, along with
proposed solutions and prospects for future applications. This
monograph allows readers to grasp the basic knowledge and future
direction of graphene-based FET biosensors.
In this monograph, the graphene-based field-effect transistor (FET)
biosensors are shown to be an emerging sensing platform. Divided
into two parts the first set of chapters are devoted to basic
knowledge of graphene, graphene FET and its biosensing. In the
second part of this book the applications of graphene FET
biosensors combined with various biotechnologies are presented. As
well as discussing the existing technologies the authors also
introduce their own ideas and concepts. Finally the remaining
problems in graphene FET biosensors are discussed, along with
proposed solutions and prospects for future applications. This
monograph allows readers to grasp the basic knowledge and future
direction of graphene-based FET biosensors.
Electrospinning utilizes an electrical force to generate a fine,
charged jet from the surface of a viscous liquid. This jet moves
straight towards a grounded collector for a certain distance, then
bends into spiral coils; finally, the jet solidifies and collects
as nonwoven cloth. The onset and development of the electrical
bending instability were investigated. Under certain conditions,
high applied voltage prohibited the onset of bending and a straight
jet reached the collector. Submicron fibers were produced by
collecting a straight jet on a moving collector. The diameter,
velocity and the longitudinal stress along the jet axis were
measured using custom-built equipment. The relaxation of
longitudinal stress along the jet was experimentally verified.
Buckling instabilities of electrospinning jets were observed and
compared with the behavior of uncharged jets. A novel pendulum-like
motion of a straight electrified jet was observed and the resulting
hierarchical structures made from buckled fibers were presented. A
theoretical model was proposed and simulated results showed
reasonable agreement with the experimental observations.
This book mainly introduces the basic theory and physical
characteristics of photoelectric materials, the preparation
technology of photoelectric components, the working principle, the
latest application, the latest progress of photoelectric materials
and devices technology and the correlation with other technologies.
The content mainly involves the theoretical basis of photoelectric
materials, micro-nano photoelectric materials and devices,
semiconductor luminescent materials and devices, inorganic
photoluminescence materials, LED packaging technology, transparent
conductive materials, touch screen, display screen, solar cell
materials and the basic principles and development trend of their
applications. In particular, the book gives a systematic
theoretical analysis of new photoelectric materials and devices,
such as optoelectronic materials and devices, transparent
conductive materials, and provides application examples.
This book contains material from the lecture courses conducted at
the Theoretical Advanced Study Institute (TASI, Colorado, USA) on
high energy physics and cosmology in 2008. Three series of lectures
are presented in parallel in the areas of Large Hadron Collider
(LHC) phenomenology and experimentation; advanced theoretical
topics beyond the standard model; and neutrino oscillation,
astroparticle physics and cosmology. The phenomenology lectures
cover a broad spectrum of standard research techniques used to
interpret present-day and LHC data. The new physics lectures focus
on modern speculations about physics beyond the standard model,
with an emphasis on supersymmetry, grand unification theories,
extra-dimensional theories, and string phenomenology, which may be
tested at the LHC. The lecture series on neutrino physics,
astroparticle physics and cosmology treats recent developments in
neutrino oscillations, theories and searches of dark matter and
dark energy, cosmic microwave background radiation, and density
perturbation theory. The lectures are of pedagogical nature in
presentation, and are accessible to advanced graduate students and
researchers in high energy physics and cosmology.
This volume promotes the widespread application of Critical Race
Theory (CRT) to better prepare K-12 teachers to bring an informed
asset-based approach to teaching today's highly diverse
populations. The text explores the tradition of CRT in teacher
education and expands CRT into new contexts, including LatCrit,
AsianCrit, TribalCrit, QueerCrit, and BlackCrit.
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