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Construction of multiporphyrin arrays using ruthenium and rhodium coordination to phosphines

Construction of multiporphyrin arrays using ruthenium and rhodium coordination to phosphines
Construction of multiporphyrin arrays using ruthenium and rhodium coordination to phosphines
The synthesis of linear multiporphyrin arrays with mono- and bisphosphine-substituted porphyrins as ligand donors and ruthenium(II) or rhodium(III) porphyrins as ligand acceptors is described. With appropriate amounts of the building blocks mixed, linear dimeric and trimeric arrays have been synthesized and analyzed by (1)H NMR and (31)P NMR spectroscopy. The Ru/Rh acceptor porphyrins can be located either at the periphery or in the center of the array. Likewise, the monophosphine porphyrins can be positioned at the periphery, thus allowing a high degree of freedom in the overall composition of the arrays. This way, both donor and acceptor porphyrins can act as chain extenders or terminators. One of the trimeric complexes with two nickel and one ruthenium porphyrin has also been analyzed by X-ray crystallography. Attempts have also been made to synthesize higher order arrays by mixing appropriate amounts of the porphyrins; however, from the NMR data it cannot be concluded if monodisperse five, seven, or nine porphyrin arrays are present or if the solutions are composed of a statistical mixture of smaller and larger arrays
0020-1669
6564-6574
Stulz, Eugen
9a6c04cf-32ca-442b-9281-bbf3d23c622d
Scott, Sonya M
998497ec-3eec-4387-8bbc-7eb710f0a6d8
Ng, Yiu-Fai
e09b2546-48dc-4e23-af7d-62f109b46ba8
Bond, Andrew D.
94b1c5ea-ac6f-4062-9673-13064c82aeee
Teat, Simon J.
fd6e6d90-b0c2-4463-91d2-5c72e212d414
Darling, Scott L.
fbef4b54-4f6b-4528-adcd-987af79826e1
Feeder, Neil
f72b9f0c-f7a0-4d4a-9aa0-4654bd85c386
Sanders, Jeremy K.M.
a676d635-3196-437a-b894-a2bc5f857ae2
Stulz, Eugen
9a6c04cf-32ca-442b-9281-bbf3d23c622d
Scott, Sonya M
998497ec-3eec-4387-8bbc-7eb710f0a6d8
Ng, Yiu-Fai
e09b2546-48dc-4e23-af7d-62f109b46ba8
Bond, Andrew D.
94b1c5ea-ac6f-4062-9673-13064c82aeee
Teat, Simon J.
fd6e6d90-b0c2-4463-91d2-5c72e212d414
Darling, Scott L.
fbef4b54-4f6b-4528-adcd-987af79826e1
Feeder, Neil
f72b9f0c-f7a0-4d4a-9aa0-4654bd85c386
Sanders, Jeremy K.M.
a676d635-3196-437a-b894-a2bc5f857ae2

Stulz, Eugen, Scott, Sonya M, Ng, Yiu-Fai, Bond, Andrew D., Teat, Simon J., Darling, Scott L., Feeder, Neil and Sanders, Jeremy K.M. (2003) Construction of multiporphyrin arrays using ruthenium and rhodium coordination to phosphines. Inorganic Chemistry, 42 (20), 6564-6574. (doi:10.1021/ic034699w).

Record type: Article

Abstract

The synthesis of linear multiporphyrin arrays with mono- and bisphosphine-substituted porphyrins as ligand donors and ruthenium(II) or rhodium(III) porphyrins as ligand acceptors is described. With appropriate amounts of the building blocks mixed, linear dimeric and trimeric arrays have been synthesized and analyzed by (1)H NMR and (31)P NMR spectroscopy. The Ru/Rh acceptor porphyrins can be located either at the periphery or in the center of the array. Likewise, the monophosphine porphyrins can be positioned at the periphery, thus allowing a high degree of freedom in the overall composition of the arrays. This way, both donor and acceptor porphyrins can act as chain extenders or terminators. One of the trimeric complexes with two nickel and one ruthenium porphyrin has also been analyzed by X-ray crystallography. Attempts have also been made to synthesize higher order arrays by mixing appropriate amounts of the porphyrins; however, from the NMR data it cannot be concluded if monodisperse five, seven, or nine porphyrin arrays are present or if the solutions are composed of a statistical mixture of smaller and larger arrays

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Published date: 6 October 2003
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Identifiers

Local EPrints ID: 145797
URI: http://eprints.soton.ac.uk/id/eprint/145797
DOI: doi:10.1021/ic034699w
ISSN: 0020-1669
PURE UUID: 1f559e29-c83a-4f9a-a747-4d0cd2eaf56c
ORCID for Eugen Stulz: ORCID iD orcid.org/0000-0002-5302-2276

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Date deposited: 08 Jul 2010 13:51
Last modified: 14 Mar 2024 02:51

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Contributors

Author: Eugen Stulz ORCID iD
Author: Sonya M Scott
Author: Yiu-Fai Ng
Author: Andrew D. Bond
Author: Simon J. Teat
Author: Scott L. Darling
Author: Neil Feeder
Author: Jeremy K.M. Sanders

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