Ordered Porous Nanostructures and Applications [electronic resource] / by Ralf B. Wehrspohn.

Por: Wehrspohn, Ralf B [author.]Tipo de material: TextoTextoSeries Nanostructure Science and TechnologyEditor: Boston, MA : Springer US, 2005Descripción: XIII, 207 p. online resourceTipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9780387251936Trabajos contenidos: SpringerLink (Online service)Tema(s): Chemistry | Biotechnology | Chemistry, Physical organic | Physical optics | Optical materials | Nanotechnology | Chemistry | Biotechnology | Nanotechnology | Optical and Electronic Materials | Physical Chemistry | Applied Optics, Optoelectronics, Optical DevicesFormatos físicos adicionales: Sin títuloClasificación CDD: 660.6 Clasificación LoC:TP248.13-248.65Recursos en línea: de clik aquí para ver el libro electrónico
Contenidos:
Springer eBooksResumen: Ordered porous nanostructures have emerged in the last ten years in different kinds of materials and with different pore diameters and interpore spacing. This book reviews in the first part which kinds of materials exhibit ordered nanopores and what are the physico-chemical reasons for it. In the second part, this book discusses the possible applications from photonic crystals via high-throughput screening to metallic and polymer-nanowire arrays and their use in the case of ferromagnetic wires as high-density magnetic storage medium. This book reviews the most interesting materials on the market concerning self-ordering, including: macroporous silicon, porous alumina, MCM41 and photonic bandgap materials, which is one of the hottest topics in optics and nano-technology in the last five years, according to Science magazine. In computer applications, these structures enable significantly higher storage densities than are possible with thin film media. Moreover, these structures find uses in template fabrication for nanowire-arrays, high-throughput screening, lab-on-a-chip, ULSI circuitry for trenches and capacitors.
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Materials and Preparations -- Electrochemical Pore Array Fabrication on n-Type Silicon Electrodes -- Macropores in p-Type Silicon -- Highly Ordered Nanohole Arrays in Anodic Porous Alumina -- The Way to Uniformity in Porous IIIV Compounds via Self-Organization and Lithography Patterning -- Microporous Honeycomb-Structured Polymer Films -- From Nanosize Silica Spheres to Three-Dimensional Colloidal Crystals -- Applications -- Macroporous Silicon Photonic Crystals -- High-Density Nickel Nanowire Arrays -- Porous Silicon for Micromachining.

Ordered porous nanostructures have emerged in the last ten years in different kinds of materials and with different pore diameters and interpore spacing. This book reviews in the first part which kinds of materials exhibit ordered nanopores and what are the physico-chemical reasons for it. In the second part, this book discusses the possible applications from photonic crystals via high-throughput screening to metallic and polymer-nanowire arrays and their use in the case of ferromagnetic wires as high-density magnetic storage medium. This book reviews the most interesting materials on the market concerning self-ordering, including: macroporous silicon, porous alumina, MCM41 and photonic bandgap materials, which is one of the hottest topics in optics and nano-technology in the last five years, according to Science magazine. In computer applications, these structures enable significantly higher storage densities than are possible with thin film media. Moreover, these structures find uses in template fabrication for nanowire-arrays, high-throughput screening, lab-on-a-chip, ULSI circuitry for trenches and capacitors.

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