|
Showing 1 - 4 of
4 matches in All Departments
Quantum dots: Emerging materials for versatile applications is an
introduction to the fundamentals and important advances of research
of this important category of semiconductor nanostructured
materials. After a brief review of relevant nanotechnology concepts
and the unique properties of nanomaterials, the book describes the
fundamentals of quantum dots with definitions of the primary
classifications of quantum dots. There is an emphasis on practical
considerations of the commercial translation of quantum dots such
as their toxicity, stability, and disposal. Moreover, the book
focuses on a review of the advances in research in emerging quantum
dot materials along with the latest innovations in materials design
and fabrication methods. Quantum Dots is suitable for materials
scientists and engineers in academia or industry R&D who are
looking for an introduction to this research topic or a key
reference on the latest advances and applications.
Functional Materials from Carbon, Inorganic and Organic Sources:
Methods and Advances describes the basic principles, mechanisms and
theoretical background of functional materials. Sections cover
Carbon-based functional materials, Inorganic functional materials
for renewable and sustainable energy applications, and Organic and
biological based functional materials. Applications such as energy
storage and conversion, electronic and photonics devices, and in
medicine are also explored. Sections dive into photovoltaic
devices, light emitting devices, energy storage materials and
quantum dot devices, solar cell fundamentals and devices,
perovskite materials and ceramic thin films. Final sections
emphasize green approaches to synthesis in semiconductor
nanoparticles, quinolone complexes, biomaterials and biopolymers.
Includes details of the fundamental phenomenological theories of
solar cells, Li ion/ Li-air/Li-S batteries, fuel cells and their
energy storage mechanisms. Discusses properties of various energy
materials in addition to their device operation and evaluation.
Principles and Applications of Organic Light Emitting Diodes
(OLEDs)explores the ways in which the development of organic
semiconductor materials is opening up new applications in
electronic and optoelectronic luminescent devices. The book begins
by covering the principles of luminescence and the luminescent
properties of organic semiconductors. It then covers the
development of luminescent materials for OLEDs, discussing the
advantages and disadvantages of organic versus inorganic
luminescent materials. The fabrication and characterization of
OLEDs is also covered in detail, including information on, and
comparisons of, vacuum deposition and solution techniques. Finally,
applications of OLEDs are explored, including OLEDs in solid-state
lighting, colored lighting, displays and potential future
applications, such as ultra-thin and flexible technologies. This
book is an excellent resource both for experts and newcomers to the
field of organic optoelectronics and OLEDs. It is ideal for
scientists working on optical devices, lighting, display and
imaging technologies, and for all those engaged in research in
photonics, luminescence and optical materials.
|
|