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Axial Coordination to Metalloporphyrins Leading to Multinuclear Assemblies

Axial Coordination to Metalloporphyrins Leading to Multinuclear Assemblies
Axial Coordination to Metalloporphyrins Leading to Multinuclear Assemblies
The use of axial coordination to metalloporphyrins is discussed on the basis of constructing multinuclear complexes. Starting with single metalloporphyrin-ligand complexes where the ligand is designed to bring a functional moiety close to the porphyrin, the discussion further expands to the design, synthesis, and detailed analysis of multiporphyrin assemblies. The porphyrin-as-ligand concept combined with orthogonal binding modes is presented, and selected examples show that in this way a large diversity in multiporphyrin assemblies can be achieved. New emerging concepts such as dynamic combinatorial chemistry, porphyrin-fullerene complexes and porphyrins assembled around gold nanoclusters or on surfaces are presented as well, because these systems are expected to play a leading role in the design of new materials in near future.
Metalloporphyrins - Axial coordination - Non-covalent multiporphyrin assembly - Porphyrin-as-ligand - Dynamic combinatorial libraries - Self-assembled monolayers
9783540325420
1-47
Springer
Bouamaied, Imenne
9938a8f5-740f-4c9c-9285-8a16a43a5fe5
Coskun, Timur
91f03044-3b2a-4222-b8d4-93206be1b26a
Stulz, Eugen
9a6c04cf-32ca-442b-9281-bbf3d23c622d
Alessio, Enzo
Bouamaied, Imenne
9938a8f5-740f-4c9c-9285-8a16a43a5fe5
Coskun, Timur
91f03044-3b2a-4222-b8d4-93206be1b26a
Stulz, Eugen
9a6c04cf-32ca-442b-9281-bbf3d23c622d
Alessio, Enzo

Bouamaied, Imenne, Coskun, Timur and Stulz, Eugen (2006) Axial Coordination to Metalloporphyrins Leading to Multinuclear Assemblies. In, Alessio, Enzo (ed.) Non-Covalent Multi-Porphyrin Assemblies. (Structure and Bonding, 121) Berlin, Germany. Springer, pp. 1-47. (doi:10.1007/11677529).

Record type: Book Section

Abstract

The use of axial coordination to metalloporphyrins is discussed on the basis of constructing multinuclear complexes. Starting with single metalloporphyrin-ligand complexes where the ligand is designed to bring a functional moiety close to the porphyrin, the discussion further expands to the design, synthesis, and detailed analysis of multiporphyrin assemblies. The porphyrin-as-ligand concept combined with orthogonal binding modes is presented, and selected examples show that in this way a large diversity in multiporphyrin assemblies can be achieved. New emerging concepts such as dynamic combinatorial chemistry, porphyrin-fullerene complexes and porphyrins assembled around gold nanoclusters or on surfaces are presented as well, because these systems are expected to play a leading role in the design of new materials in near future.

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Published date: 2006
Keywords: Metalloporphyrins - Axial coordination - Non-covalent multiporphyrin assembly - Porphyrin-as-ligand - Dynamic combinatorial libraries - Self-assembled monolayers
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Identifiers

Local EPrints ID: 41348
URI: http://eprints.soton.ac.uk/id/eprint/41348
DOI: doi:10.1007/11677529
ISBN: 9783540325420
PURE UUID: 56083f7d-e7db-467a-9155-95a798e0666b
ORCID for Eugen Stulz: ORCID iD orcid.org/0000-0002-5302-2276

Catalogue record

Date deposited: 22 Aug 2006
Last modified: 16 Mar 2024 03:51

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Contributors

Author: Imenne Bouamaied
Author: Timur Coskun
Author: Eugen Stulz ORCID iD
Editor: Enzo Alessio

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