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Hydrogen bonds in excited state proton transfer

Hydrogen bonds in excited state proton transfer
Hydrogen bonds in excited state proton transfer
Hydrogen bonding interactions between biological chromophores and their surrounding protein and solvent environment significantly affect the photochemical pathways of the chromophore and its biological function. A common first step in the dynamics of these systems is excited state proton transfer between the non-covalently bound molecules, which stabilizes the system against dissociation and principally alters relaxation pathways. Despite such fundamental importance, studying excited state proton transfer across a hydrogen bond has proven difficult, leaving uncertainties about the mechanism. Through time-resolved photoelectron imaging measurements we demonstrate how the addition of a single hydrogen bond and the opening of an excited state proton transfer channel dramatically changes the outcome of a photochemical reaction, from rapid dissociation in the isolated chromophore, to efficient stabilization and ground state recovery in the hydrogen bonded case, and uncover the mechanism of excited state proton transfer at a hydrogen bond, which follows sequential hydrogen and charge transfer processes.
1-5
Horke, D. A.
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Watts, H. M.
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Smith, A. D.
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Jager, E.
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Springate, E.
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Alexander, O.
eefa2701-8d3a-42cc-bf14-74a3e8b3622a
Cacho, C.
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Chapman, R. T.
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Minns, R. S.
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Horke, D. A.
ecebf884-717c-4948-a62b-0533d4e04aa3
Watts, H. M.
fac4dfc7-37ca-4ea7-93c1-33d0f774292f
Smith, A. D.
af4cf6b6-1d87-47e7-a6f6-c8cc0ea20af8
Jager, E.
a1d3594d-6c7b-4b1d-9575-130fc7406670
Springate, E.
8135f8ae-8d23-45d1-81f6-5bb6d901e304
Alexander, O.
eefa2701-8d3a-42cc-bf14-74a3e8b3622a
Cacho, C.
6104eeeb-9ac7-48a4-a03d-ec90b38f575a
Chapman, R. T.
b696a894-6d7e-4ada-b9f9-994381a7d035
Minns, R. S.
85280db4-c5a6-4a4c-82fe-75693c6a6045

Horke, D. A., Watts, H. M., Smith, A. D., Jager, E., Springate, E., Alexander, O., Cacho, C., Chapman, R. T. and Minns, R. S. (2016) Hydrogen bonds in excited state proton transfer. Physical Review Letters, 117 (16), 1-5, [163002]. (doi:10.1103/PhysRevLett.117.163002).

Record type: Article

Abstract

Hydrogen bonding interactions between biological chromophores and their surrounding protein and solvent environment significantly affect the photochemical pathways of the chromophore and its biological function. A common first step in the dynamics of these systems is excited state proton transfer between the non-covalently bound molecules, which stabilizes the system against dissociation and principally alters relaxation pathways. Despite such fundamental importance, studying excited state proton transfer across a hydrogen bond has proven difficult, leaving uncertainties about the mechanism. Through time-resolved photoelectron imaging measurements we demonstrate how the addition of a single hydrogen bond and the opening of an excited state proton transfer channel dramatically changes the outcome of a photochemical reaction, from rapid dissociation in the isolated chromophore, to efficient stabilization and ground state recovery in the hydrogen bonded case, and uncover the mechanism of excited state proton transfer at a hydrogen bond, which follows sequential hydrogen and charge transfer processes.

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More information

Submitted date: 1 April 2016
Accepted/In Press date: 7 September 2016
e-pub ahead of print date: 11 October 2016
Published date: 11 October 2016
Related URLs:
Organisations: Computational Systems Chemistry

Identifiers

Local EPrints ID: 385205
URI: http://eprints.soton.ac.uk/id/eprint/385205
DOI: doi:10.1103/PhysRevLett.117.163002
PURE UUID: e1544aad-8515-43a7-bbdf-a148f91be155
ORCID for R. S. Minns: ORCID iD orcid.org/0000-0001-6775-2977

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Date deposited: 19 Sep 2016 10:10
Last modified: 15 Mar 2024 05:22

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Contributors

Author: D. A. Horke
Author: H. M. Watts
Author: A. D. Smith
Author: E. Jager
Author: E. Springate
Author: O. Alexander
Author: C. Cacho
Author: R. T. Chapman
Author: R. S. Minns ORCID iD

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