Self-Assembled Nanomaterials I: Nanofibers (Advances in Polymer Science) (No. I)

Self-Assembled Nanomaterials I: Nanofibers (Advances in Polymer Science) (No. I)

This text was ranked by ISI as having the Highest Impact Factor of all publications within Polymer Science. It is a collection of concise reports on the physics and chemistry of polymers.

List Price: $ 229.00

Price: $ 104.10

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Self-Assembled Nanomaterials I: Nanofibers (Advances in Polymer Science) Reviews

Self-Assembled Nanomaterials I: Nanofibers (Advances in Polymer Science)

This text was ranked by ISI as having the Highest Impact Factor of all publications within Polymer Science. It is a collection of concise reports on the physics and chemistry of polymers.

List Price: $ 229.00

Price: $ 228.97

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Self-assembled magnetic nanostructures enable future spintronic devices

UCLA and University of Queensland researchers report on “superlattice” growth of MnGe nanostructures
nanotechweb.org: lab talk

Self-Assembled Quantum Dots

Product Description

In recent years, the field of self-assembled quantum dots has shown great promise for nanoscale applications in optoelectronics and quantum computing. Worldwide efforts in both theory and experimental investigations have driven the growth, characterization, and applications of quantum dots into an advanced multidisciplinary field. Written by leading experts in the field, Self-Assembled Quantum Dots provides up-to-date coverage of  carrier and spin dynamics and energy transfer and structural interaction among nanostructures. Topics also includes current device applications such as quantum dot lasers and detectors as well as future applications to quantum information processing.

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Molecular Gels: Materials with Self-Assembled Fibrillar Networks

Product Description
Molecular Gels: Materials with Self-Assembled Fibrillar Networks is a comprehensive treatise on gelators, especially low molecular-mass gelators and the properties of their gels. The structures and modes of formation of the self-assembled fibrillar networks (SAFINs) that immobilize the liquid components of the gels are discussed experimentally and theoretically. The spectroscopic, rheological, and structural features of the different classes of low molecular-mass gelators are also presented. Many examples of the application of the principal analytical techniques for investigation of molecular gels (including SANS, SAXS, WAXS, UV-vis absorption, fluorescence and CD spectroscopies, scanning electron, transmission electron and optical microscopies, and molecular modeling) are presented didactically and in-depth, as are several of the theories of the stages of aggregation of individual low molecular-mass gelator molecules leading to SAFINs. Several actual and potential applications of molecular gels in disparate fields (from silicate replication of nanostructures to art conservation) are described. Special emphasis is placed on perspectives for future developments.

This book is an invaluable resource for researchers and practitioners either already researching self-assembly and soft matter or new to the area. Those who will find the book useful include chemists, engineers, spectroscopists, physicists, biologists, theoreticians, and materials scientists.

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