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Materials synthesis using oxide free sol–gel systems

Materials synthesis using oxide free sol–gel systems
Materials synthesis using oxide free sol–gel systems
This tutorial review highlights some active areas of research into non-oxide sol–gel chemistry. These aim to capture some of the advantages of methods developed mainly with oxides for a new generation of functional materials based on main group and metal nitrides, and semiconducting chalcogenides. Sol–gel processing has a long track record in producing useful materials for optical, magnetic, electrical, catalytic and structural applications. Controlled morphologies can be produced on all lengths scales, from ordered mesoporous arrays to thin films, fibres and monoliths. Hence there is an opportunity to produce new morphologies in non-oxides and hence new applications of these materials
n ceramics, single-source precursors, dialkylamides, thin-film, titanium nitride, route, niobium, chemistry, ammono-system
0306-0012
1745-1753
Hector, Andrew L.
f19a8f31-b37f-4474-b32a-b7cf05b9f0e5
Hector, Andrew L.
f19a8f31-b37f-4474-b32a-b7cf05b9f0e5

Hector, Andrew L. (2007) Materials synthesis using oxide free sol–gel systems. Chemical Society Reviews, 36 (11), 1745-1753. (doi:10.1039/b608838b).

Record type: Article

Abstract

This tutorial review highlights some active areas of research into non-oxide sol–gel chemistry. These aim to capture some of the advantages of methods developed mainly with oxides for a new generation of functional materials based on main group and metal nitrides, and semiconducting chalcogenides. Sol–gel processing has a long track record in producing useful materials for optical, magnetic, electrical, catalytic and structural applications. Controlled morphologies can be produced on all lengths scales, from ordered mesoporous arrays to thin films, fibres and monoliths. Hence there is an opportunity to produce new morphologies in non-oxides and hence new applications of these materials

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Published date: 2007
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Keywords: n ceramics, single-source precursors, dialkylamides, thin-film, titanium nitride, route, niobium, chemistry, ammono-system
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Identifiers

Local EPrints ID: 145979
URI: http://eprints.soton.ac.uk/id/eprint/145979
DOI: doi:10.1039/b608838b
ISSN: 0306-0012
PURE UUID: 9ae1a583-77dc-4aee-a57b-e84c445258a1
ORCID for Andrew L. Hector: ORCID iD orcid.org/0000-0002-9964-2163

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Date deposited: 07 Jun 2010 09:30
Last modified: 26 Jul 2024 01:35

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Author: Andrew L. Hector ORCID iD

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