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This book primarily covers the fundamental science, synthesis,
characterization, optoelectronic properties, and applications of
metal oxide nanomaterials. It discusses the basic aspects of
synthetic procedures and fabrication technologies, explains the
related experimental techniques and also elaborates on the current
status of nanostructured oxide materials and related devices. Two
major aspects of metal oxide nanostructures - their optical and
electrical properties - are described in detail. The first five
chapters focus on the optical characteristics of semiconducting
materials, especially metal oxides at the nanoscale. The following
five chapters discuss the electrical properties observed in metal
oxide-based semiconductors and the status quo of device-level
developments in a variety of applications such as sensors,
transistors, dilute magnetic semiconductors, and dielectric
materials. The basic science and mechanism behind the
optoelectronic phenomena are explained in detail, to aid readers
interested in the structure-property symbiosis in semiconducting
nanomaterials. In short, the book offers a valuable reference guide
for researchers and academics in the areas of material science and
semiconductor technology, especially nanophotonics and electronics.
This book primarily covers the fundamental science, synthesis,
characterization, optoelectronic properties, and applications of
metal oxide nanomaterials. It discusses the basic aspects of
synthetic procedures and fabrication technologies, explains the
related experimental techniques and also elaborates on the current
status of nanostructured oxide materials and related devices. Two
major aspects of metal oxide nanostructures - their optical and
electrical properties - are described in detail. The first five
chapters focus on the optical characteristics of semiconducting
materials, especially metal oxides at the nanoscale. The following
five chapters discuss the electrical properties observed in metal
oxide-based semiconductors and the status quo of device-level
developments in a variety of applications such as sensors,
transistors, dilute magnetic semiconductors, and dielectric
materials. The basic science and mechanism behind the
optoelectronic phenomena are explained in detail, to aid readers
interested in the structure-property symbiosis in semiconducting
nanomaterials. In short, the book offers a valuable reference guide
for researchers and academics in the areas of material science and
semiconductor technology, especially nanophotonics and electronics.
Nanomaterials for Sensing and Optoelectronic Applications explores
recent trends in nanomaterials and devices for chemical and
biosensing applications. The synthesis, properties and applications
of metal oxide nanostructures, as well as two-dimensional layered
materials are covered, along with the fabrication of optoelectronic
devices, such as chemical sensors, biosensors, core-shell
nanostructures-based surface-enhanced Raman spectroscopy (SERS)
substrates, luminescent nanoparticles, memory devices, and thin
film transistors. Aiming at researchers in these respective areas,
the fundamental principles and mechanisms of the optoelectronic
phenomena behind every application mentioned are covered and
comprehensively explored. The book will be helpful in solving
problems related to the synthesis and growth of various
nanostructures, the application of these materials for various
devices, and to understand how a specific synthesis route promotes
a specific application.
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