Symmetry-breaking charge-separation in a subphthalocyanine dimer resolved by two-dimensional electronic spectroscopy

Giovanni Bressan; Isabelle Chambrier; Andrew N. Cammidge; Stephen R. Meech

doi:10.1021/acs.jpcc.4c07588

Symmetry-breaking charge-separation in a subphthalocyanine dimer resolved by two-dimensional electronic spectroscopy

Giovanni Bressan, Isabelle Chambrier, Andrew N. Cammidge, Stephen R. Meech

Research output: Contribution to journal › Article › peer-review

Abstract

Understanding the role of structural and environmental dynamics in the excited state properties of strongly coupled
chromophores is of paramount importance in molecular photonics. Ultrafast, coherent, and multidimensional spectroscopies have been utilized to investigate such dynamics in the simplest model system, the molecular dimer. Here, we present a half-broadband two-dimensional electronic spectroscopy (HB2DES) study of the previously reported ultrafast symmetry-breaking charge separation (SB-CS) in the subphthalocyanine oxo-bridged homodimer μOSubPc2. Electronic structure calculations and 2D cross-peaks reveal the dimer’s excitonic structure, while ultrafast evolution of the multidimensional spectra unveils subtle features of structural relaxation, solvation dynamics, and inhomogeneous broadening in the SB-CS. Analysis of coherently excited vibrational motions reveals dimer-specific low-frequency Raman active modes coupled to higher-frequency vibrations localized on the SubPc cores. Finally, beatmap amplitude distributions characteristic of excitonic dimers with multiple bright states are reported and analyzed.

Original language	English
Pages (from-to)	1069–1077
Number of pages	9
Journal	The Journal of Physical Chemistry C
Volume	129
Issue number	2
Early online date	3 Jan 2025
DOIs	https://doi.org/10.1021/acs.jpcc.4c07588
Publication status	Published - 16 Jan 2025

Keywords

Photochemistry
ultrafast spectroscopy
Ultrafast Dynamics
excitonic coupling
subphthalocyanines

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bressan-et-al-2025-symmetry-breaking-charge-separation-in-a-subphthalocyanine-dimer-resolved-by-two-dimensionalFinal published version, 5.16 MBLicence: CC BY

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1 Finished
1 Active

Coherent structural dynamics in aromaticity reversal
Bressan, G.
Leverhulme Trust
1/04/24 → 31/03/27
Project: Fellowship
Coherent Chemistry: Ultrabroadband Two-dimensional Electronic Spectroscopy
Meech, S. & Jones, G.
Engineering and Physical Sciences Research Council
17/05/21 → 24/08/24
Project: Research

Cite this

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title = "Symmetry-breaking charge-separation in a subphthalocyanine dimer resolved by two-dimensional electronic spectroscopy",

abstract = "Understanding the role of structural and environmental dynamics in the excited state properties of strongly coupledchromophores is of paramount importance in molecular photonics. Ultrafast, coherent, and multidimensional spectroscopies have been utilized to investigate such dynamics in the simplest model system, the molecular dimer. Here, we present a half-broadband two-dimensional electronic spectroscopy (HB2DES) study of the previously reported ultrafast symmetry-breaking charge separation (SB-CS) in the subphthalocyanine oxo-bridged homodimer μOSubPc2. Electronic structure calculations and 2D cross-peaks reveal the dimer{\textquoteright}s excitonic structure, while ultrafast evolution of the multidimensional spectra unveils subtle features of structural relaxation, solvation dynamics, and inhomogeneous broadening in the SB-CS. Analysis of coherently excited vibrational motions reveals dimer-specific low-frequency Raman active modes coupled to higher-frequency vibrations localized on the SubPc cores. Finally, beatmap amplitude distributions characteristic of excitonic dimers with multiple bright states are reported and analyzed.",

keywords = "Photochemistry, ultrafast spectroscopy, Ultrafast Dynamics, excitonic coupling, subphthalocyanines",

author = "Giovanni Bressan and Isabelle Chambrier and Cammidge, {Andrew N.} and Meech, {Stephen R.}",

note = "Funding information: Engineering and Physical Sciences Research Council under award no. EP/V00817X/1. G.B. is grateful to the Leverhulme Trust for funding him through an Early Career Fellowship (Grant no. ECF-2023-195).",

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doi = "10.1021/acs.jpcc.4c07588",

language = "English",

volume = "129",

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journal = "The Journal of Physical Chemistry C",

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publisher = "American Chemical Society",

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T1 - Symmetry-breaking charge-separation in a subphthalocyanine dimer resolved by two-dimensional electronic spectroscopy

AU - Bressan, Giovanni

AU - Chambrier, Isabelle

AU - Cammidge, Andrew N.

AU - Meech, Stephen R.

N1 - Funding information: Engineering and Physical Sciences Research Council under award no. EP/V00817X/1. G.B. is grateful to the Leverhulme Trust for funding him through an Early Career Fellowship (Grant no. ECF-2023-195).

PY - 2025/1/16

Y1 - 2025/1/16

N2 - Understanding the role of structural and environmental dynamics in the excited state properties of strongly coupledchromophores is of paramount importance in molecular photonics. Ultrafast, coherent, and multidimensional spectroscopies have been utilized to investigate such dynamics in the simplest model system, the molecular dimer. Here, we present a half-broadband two-dimensional electronic spectroscopy (HB2DES) study of the previously reported ultrafast symmetry-breaking charge separation (SB-CS) in the subphthalocyanine oxo-bridged homodimer μOSubPc2. Electronic structure calculations and 2D cross-peaks reveal the dimer’s excitonic structure, while ultrafast evolution of the multidimensional spectra unveils subtle features of structural relaxation, solvation dynamics, and inhomogeneous broadening in the SB-CS. Analysis of coherently excited vibrational motions reveals dimer-specific low-frequency Raman active modes coupled to higher-frequency vibrations localized on the SubPc cores. Finally, beatmap amplitude distributions characteristic of excitonic dimers with multiple bright states are reported and analyzed.

AB - Understanding the role of structural and environmental dynamics in the excited state properties of strongly coupledchromophores is of paramount importance in molecular photonics. Ultrafast, coherent, and multidimensional spectroscopies have been utilized to investigate such dynamics in the simplest model system, the molecular dimer. Here, we present a half-broadband two-dimensional electronic spectroscopy (HB2DES) study of the previously reported ultrafast symmetry-breaking charge separation (SB-CS) in the subphthalocyanine oxo-bridged homodimer μOSubPc2. Electronic structure calculations and 2D cross-peaks reveal the dimer’s excitonic structure, while ultrafast evolution of the multidimensional spectra unveils subtle features of structural relaxation, solvation dynamics, and inhomogeneous broadening in the SB-CS. Analysis of coherently excited vibrational motions reveals dimer-specific low-frequency Raman active modes coupled to higher-frequency vibrations localized on the SubPc cores. Finally, beatmap amplitude distributions characteristic of excitonic dimers with multiple bright states are reported and analyzed.

KW - Photochemistry

KW - ultrafast spectroscopy

KW - Ultrafast Dynamics

KW - excitonic coupling

KW - subphthalocyanines

U2 - 10.1021/acs.jpcc.4c07588

DO - 10.1021/acs.jpcc.4c07588

M3 - Article

SN - 1932-7447

VL - 129

SP - 1069

EP - 1077

JO - The Journal of Physical Chemistry C

JF - The Journal of Physical Chemistry C

IS - 2

ER -

Symmetry-breaking charge-separation in a subphthalocyanine dimer resolved by two-dimensional electronic spectroscopy

Abstract

Keywords

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Projects

Coherent structural dynamics in aromaticity reversal

Coherent Chemistry: Ultrabroadband Two-dimensional Electronic Spectroscopy

Cite this