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Double-Gyroid-Structured Functional Materials: Synthesis and Applications: Springer Theses

Autor Maik Rudolf Johann Scherer
en Limba Engleză Paperback – 9 iul 2015
The development of new high-tech applications and devices has created a seemingly insatiable demand for novel functional materials with enhanced and tailored properties. Such materials can be achieved by three-dimensional structuring on the nanoscale, giving rise to a significant enhancement of particular functional characteristics which stems from the ability to access both surface/interface and bulk properties. The highly ordered, bicontinuous double-gyroid morphology is a fascinating and particularly suitable 3D nanostructure for this purpose due to its highly accessible surface area, connectivity, narrow pore diameter distribution and superb structural stability. The presented study encompasses a wide range of modern nanotechnology techniques in a highly versatile bottom-up nanopatterning strategy that splits the fabrication process into two successive steps: the preparation of mesoporous double-gyroid templates utilizing diblock copolymer self-assembly, and their replication with a functional material employing electrochemical deposition and atomic layer deposition. The double-gyroid structured materials discussed include metals, metal oxides, and conjugated polymers, which are applied and characterized in high-performance devices, such as electrochromic displays, supercapacitors, chemical sensors and photovoltaics. This publication addresses a wide range of readers, from researchers and specialists who are professionally active in the field, to more general readers interested in chemistry, nanoscience and physics.
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Specificații

ISBN-13: 9783319033051
ISBN-10: 3319033050
Pagini: 220
Ilustrații: XXI, 198 p.
Dimensiuni: 155 x 235 x 12 mm
Greutate: 0.32 kg
Ediția:2013
Editura: Springer International Publishing
Colecția Springer
Seria Springer Theses

Locul publicării:Cham, Switzerland

Public țintă

Research

Cuprins

Nanostructuring of functional materials.- Gyroid and gyroid-like surfaces.- Diblock copolymer synthesis.- Voided double-gyroid thin film templates.- Templating of metal oxides by electrodeposition.- Electrodeposition of metals.- Electropolymerization of conjugated polymers.- Atomic layer deposition of metal oxides.

Textul de pe ultima copertă

The development of new high-tech applications and devices has created a seemingly insatiable demand for novel functional materials with enhanced and tailored properties. Such materials can be achieved by three-dimensional structuring on the nanoscale, giving rise to a significant enhancement of particular functional characteristics which stems from the ability to access both surface/interface and bulk properties. The highly ordered, bicontinuous double-gyroid morphology is a fascinating and particularly suitable 3D nanostructure for this purpose due to its highly accessible surface area, connectivity, narrow pore diameter distribution and superb structural stability. The presented study encompasses a wide range of modern nanotechnology techniques in a highly versatile bottom-up nanopatterning strategy that splits the fabrication process into two successive steps: the preparation of mesoporous double-gyroid templates utilizing diblock copolymer self-assembly, and their replication with a functional material employing electrochemical deposition and atomic layer deposition. The double-gyroid structured materials discussed include metals, metal oxides, and conjugated polymers, which are applied and characterized in high-performance devices, such as electrochromic displays, supercapacitors, chemical sensors and photovoltaics. This publication addresses a wide range of readers, from researchers and specialists who are professionally active in the field, to more general readers interested in chemistry, nanoscience and physics.

Caracteristici

Nominated as an outstanding Ph.D. thesis by the University of Cambridge Offers a detailed introduction to the template-assisted synthesis of 3D nanostructured functional materials and their applications in electrochromic devices and supercapacitors A cross-disciplinary work that combines modern aspects of chemistry, physics, nanoscience and material science Includes supplementary material: sn.pub/extras