Description |
1 online resource |
Series |
Springer theses, 2190-5053 |
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Springer theses.
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Contents |
Introduction -- 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 -- Summary and Suggestions for Further Work |
Summary |
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 |
Analysis |
Polymers |
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Materials |
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Nanotechnology |
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Materials Science |
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Structural Materials |
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Nanoscale Science and Technology |
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Surface and Interface Science, Thin Films |
Notes |
Ph. D. University of Cambridge 2013 |
Bibliography |
Includes bibliographical references |
Notes |
Online resource; title from PDF title page (SpringerLink, viewed July 9, 2013) |
Subject |
Nanostructured materials.
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Polymers.
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Self-assembly (Chemistry)
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Nanostructures
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Polymers
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polymers.
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TECHNOLOGY & ENGINEERING -- Material Science.
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Chimie.
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Science des matériaux.
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Nanostructured materials
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Polymers
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Self-assembly (Chemistry)
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Genre/Form |
dissertations.
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Academic theses
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Academic theses.
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Thèses et écrits académiques.
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Form |
Electronic book
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ISBN |
9783319003542 |
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3319003542 |
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3319003534 |
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9783319003535 |
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