Imagen de portada para Electrochemically Engineered Nanoporous Materials Methods, Properties and Applications
Electrochemically Engineered Nanoporous Materials Methods, Properties and Applications
Título:
Electrochemically Engineered Nanoporous Materials Methods, Properties and Applications
ISBN:
9783319203461
Edición:
1st ed. 2015.
PRODUCTION_INFO:
Cham : Springer International Publishing : Imprint: Springer, 2015.
Descripción física:
XV, 364 p. 144 illus., 50 illus. in color. online resource.
Serie:
Springer Series in Materials Science, 220
Contenido:
Electrochemical Etching Methods for Producing Porous Silicon -- Properties and Applications of Porous Silicon -- Porous Silicon Biosensors Employing Emerging Capture Probes -- Porous Silicon for Biomedical Applications -- Porous Silicon for Bioanalysis -- Porous Silicon in Drug Delivery Application -- Self-Organized Anodic Nanotubes of Valve Metal Oxides: Synthesis, Properties, Applications Electrochemical Synthesis, Characterization and Applications of Nano-Porous Anodic Alumina -- Oxide (AAO) Membranes Chemical and Structural Modifications of Nanoporous Alumina and its Optical Properties -- Titania Nanotubes for Photocatalysis and Solar Cell Applications -- Titania Nanotubes for Solar Cell Applications -- Titania Nanotubes for Drug Delivery Applications.
Síntesis:
This book provides in-depth knowledge about the fabrications, structures, properties and applications of three outstanding electrochemically engineered nanoporous materials including porous silicon, nanoporous alumina and nanotubular titania.  The book integrates three major themes describing these materials. The first theme is on porous silicon reviewing the methods for preparation by electrochemical etching, properties and methods for surface functionalization relevant for biosensing applications.  Biomedical applications of porous silicon are major focus, described in several chapters reviewing recent developments on bioanalysis, emerging capture probes, and drug delivery. The second theme on nanoporous alumina starts with describing the concept of self-organized electrochemical process used for synthesis nanopore and nanotube structures of valve metal oxides and reviewing recent development and progress on this field. The following chapters are focused mainly  on optical properties and biosensing application of nanoporous alumina providing the reader with the depth of understanding of the structure controlled optical and photonic properties and design of optical biosensing devices using different detection principles such as photoluminescence,  surface plasmon resonance, reflective spectrometry, wave guiding,  Raman scattering etc. The third theme is focused on nanotubular titania reviewing three key applications including photocatalysis, solar cells and drug delivery. The book represents an important resource for academics, researchers, industry professionals, post-graduate and high-level undergraduate students providing them with both an overview of the current state-of-the-art on these materials and their future developments.
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Idioma:
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