Covalently Linked Ruthenium(II)-Manganese(II) Complexes: Distance Dependence of Quenching and Electron Transfer

Berg, Katja E; Tran, Anh; Raymond, Mary Katherine; Abrahamsson, Malin; Wolny, Juliusz; Redon, Sophie; Andersson, Mikael; Sun, Licheng; Styring, Stenbjörn; Hammarström, Leif; Toftlund, Hans; Åkermark, Björn

Covalently Linked Ruthenium(II)-Manganese(II) Complexes: Distance Dependence of Quenching and Electron Transfer

Mark

Berg, Katja E ; Tran, Anh ; Raymond, Mary Katherine ; Abrahamsson, Malin ; Wolny, Juliusz ; Redon, Sophie ; Andersson, Mikael ; Sun, Licheng ; Styring, Stenbjörn ^LU and Hammarström, Leif , et al. (2001) In European Journal of Inorganic Chemistry 2001(4). p.1019-1029

Abstract: Continuing our development of artificial models for photosystem II in green plants, a series of compounds have been prepared in which a Ru(bpy)32+ photosensitizer is covalently linked to a manganese(II) electron donor. In addition to a trispicolylamine ligand, two other manganese ligands, dipicolylamine and aminodiacetic acid, have been introduced in order to study ligands that are appropriate for the construction of manganese dimers with open coordination sites for the binding of water. Coordination equilibria of the manganese ions were monitored by EPR. The interactions between the ruthenium and manganese moieties were probed by flash photolysis, cyclic voltammetry and steady-state and time-resolved emission measurements. The quenching... (More); Continuing our development of artificial models for photosystem II in green plants, a series of compounds have been prepared in which a Ru(bpy)32+ photosensitizer is covalently linked to a manganese(II) electron donor. In addition to a trispicolylamine ligand, two other manganese ligands, dipicolylamine and aminodiacetic acid, have been introduced in order to study ligands that are appropriate for the construction of manganese dimers with open coordination sites for the binding of water. Coordination equilibria of the manganese ions were monitored by EPR. The interactions between the ruthenium and manganese moieties were probed by flash photolysis, cyclic voltammetry and steady-state and time-resolved emission measurements. The quenching of the RuII excited state by MnII was found to be rapid in complexes with short Ru-Mn distances. Nevertheless, each RuII species could be photo-oxidized by bimolecular quenching with methylviologen, and the subsequent electron transfer from MnII to RuIII could be monitored. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/124921

author

Berg, Katja E ; Tran, Anh ; Raymond, Mary Katherine ; Abrahamsson, Malin ; Wolny, Juliusz ; Redon, Sophie ; Andersson, Mikael ; Sun, Licheng ; Styring, Stenbjörn ^LU and Hammarström, Leif , et al. (More)

Berg, Katja E ; Tran, Anh ; Raymond, Mary Katherine ; Abrahamsson, Malin ; Wolny, Juliusz ; Redon, Sophie ; Andersson, Mikael ; Sun, Licheng ; Styring, Stenbjörn ^LU ; Hammarström, Leif ; Toftlund, Hans and Åkermark, Björn (Less)

organization

Biochemistry and Structural Biology

publishing date

2001

type

Contribution to journal

publication status

published

subject

Biological Sciences

keywords

Ruthenium, N ligands, Electron transfer, Manganese

in

European Journal of Inorganic Chemistry

volume

2001

issue

4

pages

1019 - 1029

publisher

John Wiley & Sons Inc.

external identifiers

scopus:0035073442

ISSN

1099-0682

DOI

10.1002/1099-0682(200104)2001:4<1019::AID-EJIC1019>3.0.CO;2-6

language

English

LU publication?

yes

id

f07ea6a8-f6cf-484a-aca5-9ceff299d21a (old id 124921)

date added to LUP

2016-04-01 12:35:28

date last changed

2022-01-27 07:11:48

@article{f07ea6a8-f6cf-484a-aca5-9ceff299d21a,
  abstract     = {{Continuing our development of artificial models for photosystem II in green plants, a series of compounds have been prepared in which a Ru(bpy)32+ photosensitizer is covalently linked to a manganese(II) electron donor. In addition to a trispicolylamine ligand, two other manganese ligands, dipicolylamine and aminodiacetic acid, have been introduced in order to study ligands that are appropriate for the construction of manganese dimers with open coordination sites for the binding of water. Coordination equilibria of the manganese ions were monitored by EPR. The interactions between the ruthenium and manganese moieties were probed by flash photolysis, cyclic voltammetry and steady-state and time-resolved emission measurements. The quenching of the RuII excited state by MnII was found to be rapid in complexes with short Ru-Mn distances. Nevertheless, each RuII species could be photo-oxidized by bimolecular quenching with methylviologen, and the subsequent electron transfer from MnII to RuIII could be monitored.}},
  author       = {{Berg, Katja E and Tran, Anh and Raymond, Mary Katherine and Abrahamsson, Malin and Wolny, Juliusz and Redon, Sophie and Andersson, Mikael and Sun, Licheng and Styring, Stenbjörn and Hammarström, Leif and Toftlund, Hans and Åkermark, Björn}},
  issn         = {{1099-0682}},
  keywords     = {{Ruthenium; N ligands; Electron transfer; Manganese}},
  language     = {{eng}},
  number       = {{4}},
  pages        = {{1019--1029}},
  publisher    = {{John Wiley & Sons Inc.}},
  series       = {{European Journal of Inorganic Chemistry}},
  title        = {{Covalently Linked Ruthenium(II)-Manganese(II) Complexes: Distance Dependence of Quenching and Electron Transfer}},
  url          = {{http://dx.doi.org/10.1002/1099-0682(200104)2001:4<1019::AID-EJIC1019>3.0.CO;2-6}},
  doi          = {{10.1002/1099-0682(200104)2001:4<1019::AID-EJIC1019>3.0.CO;2-6}},
  volume       = {{2001}},
  year         = {{2001}},
}

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Covalently Linked Ruthenium(II)-Manganese(II) Complexes: Distance Dependence of Quenching and Electron Transfer