Symmetry-breaking charge transfer and intersystem crossing in copper phthalocyanine thin films

Esther del Pino Rosendo; Okan Yildiz; Wojciech Pisula; Tomasz Marszalek; Paul W.M. Blom; Charusheela Ramanan

doi:10.1039/d2cp05240g

Symmetry-breaking charge transfer and intersystem crossing in copper phthalocyanine thin films

Esther del Pino Rosendo, Okan Yildiz, Wojciech Pisula, Tomasz Marszalek, Paul W.M. Blom, Charusheela Ramanan^*

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Intermolecular interactions in π-stacked chromophores strongly influence their photophysical properties, and thereby also their function in photonic applications. Mixed electronic and vibrational coupling interactions lead to complex potential energy landscapes with competitive photophysical pathways. Here, we characterize the photoexcited dynamics of the small molecule semiconductor copper pthalocyanine (CuPc) in solution and in thin film, the latter comprising two different π-stacked architectures, α-CuPc and β-CuPc. In solution, CuPc undergoes ultrafast intersytem crossing (ISC) to the triplet excited state. In the solid state, both α-CuPc and β-CuPc morphologies exhibit a mixing between Frenkel and charge-transfer excitons (Frenkel-CT mixing). We find that this mixing influences the photophysical properties differently, based on morphology. In addition to ISC, α-CuPc demonstrates symmetry-breaking charge transfer, which furthermore depends on excitation wavelength. This mechanism is not observed in β-CuPc. These results elucidate how molecular organization mediates the balance of competitive photexcited decay mechanisms in organic semiconductors.

Original language	English
Pages (from-to)	6847-6856
Number of pages	10
Journal	Physical Chemistry Chemical Physics
Volume	25
Issue number	9
Early online date	30 Jan 2023
DOIs	https://doi.org/10.1039/d2cp05240g
Publication status	Published - 7 Mar 2023

Bibliographical note

Funding Information:
The authors are grateful to N. Kotadiya for help with sample preparation. W. Pisula acknowledges the National Science Centre, Poland, through the grant UMO-2019/33/B/ST3/1550. Open Access funding provided by the Max Planck Society. All authors acknowledge Dortmund Electron Accelerator (DELTA) for grazing-incidence wide-angle X-ray scattering (GIWAXS) measurements.

Publisher Copyright:
© 2023 The Royal Society of Chemistry.

Funding

The authors are grateful to N. Kotadiya for help with sample preparation. W. Pisula acknowledges the National Science Centre, Poland, through the grant UMO-2019/33/B/ST3/1550. Open Access funding provided by the Max Planck Society. All authors acknowledge Dortmund Electron Accelerator (DELTA) for grazing-incidence wide-angle X-ray scattering (GIWAXS) measurements.

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title = "Symmetry-breaking charge transfer and intersystem crossing in copper phthalocyanine thin films",

abstract = "Intermolecular interactions in π-stacked chromophores strongly influence their photophysical properties, and thereby also their function in photonic applications. Mixed electronic and vibrational coupling interactions lead to complex potential energy landscapes with competitive photophysical pathways. Here, we characterize the photoexcited dynamics of the small molecule semiconductor copper pthalocyanine (CuPc) in solution and in thin film, the latter comprising two different π-stacked architectures, α-CuPc and β-CuPc. In solution, CuPc undergoes ultrafast intersytem crossing (ISC) to the triplet excited state. In the solid state, both α-CuPc and β-CuPc morphologies exhibit a mixing between Frenkel and charge-transfer excitons (Frenkel-CT mixing). We find that this mixing influences the photophysical properties differently, based on morphology. In addition to ISC, α-CuPc demonstrates symmetry-breaking charge transfer, which furthermore depends on excitation wavelength. This mechanism is not observed in β-CuPc. These results elucidate how molecular organization mediates the balance of competitive photexcited decay mechanisms in organic semiconductors.",

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AU - Ramanan, Charusheela

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N2 - Intermolecular interactions in π-stacked chromophores strongly influence their photophysical properties, and thereby also their function in photonic applications. Mixed electronic and vibrational coupling interactions lead to complex potential energy landscapes with competitive photophysical pathways. Here, we characterize the photoexcited dynamics of the small molecule semiconductor copper pthalocyanine (CuPc) in solution and in thin film, the latter comprising two different π-stacked architectures, α-CuPc and β-CuPc. In solution, CuPc undergoes ultrafast intersytem crossing (ISC) to the triplet excited state. In the solid state, both α-CuPc and β-CuPc morphologies exhibit a mixing between Frenkel and charge-transfer excitons (Frenkel-CT mixing). We find that this mixing influences the photophysical properties differently, based on morphology. In addition to ISC, α-CuPc demonstrates symmetry-breaking charge transfer, which furthermore depends on excitation wavelength. This mechanism is not observed in β-CuPc. These results elucidate how molecular organization mediates the balance of competitive photexcited decay mechanisms in organic semiconductors.

AB - Intermolecular interactions in π-stacked chromophores strongly influence their photophysical properties, and thereby also their function in photonic applications. Mixed electronic and vibrational coupling interactions lead to complex potential energy landscapes with competitive photophysical pathways. Here, we characterize the photoexcited dynamics of the small molecule semiconductor copper pthalocyanine (CuPc) in solution and in thin film, the latter comprising two different π-stacked architectures, α-CuPc and β-CuPc. In solution, CuPc undergoes ultrafast intersytem crossing (ISC) to the triplet excited state. In the solid state, both α-CuPc and β-CuPc morphologies exhibit a mixing between Frenkel and charge-transfer excitons (Frenkel-CT mixing). We find that this mixing influences the photophysical properties differently, based on morphology. In addition to ISC, α-CuPc demonstrates symmetry-breaking charge transfer, which furthermore depends on excitation wavelength. This mechanism is not observed in β-CuPc. These results elucidate how molecular organization mediates the balance of competitive photexcited decay mechanisms in organic semiconductors.

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Symmetry-breaking charge transfer and intersystem crossing in copper phthalocyanine thin films

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