Exploring the light-induced dynamics in solvated metallogrid complexes with femtosecond pulses across the electromagnetic spectrum

Maria A. Naumova; Aleksandr Kalinko; Joanne W.L. Wong; Sol Alvarez Gutierrez; Jie Meng; Mingli Liang; Mohamed Abdellah; Huifang Geng; Weihua Lin; Katharina Kubicek; Mykola Biednov; Frederico Lima; Andreas Galler; Peter Zalden; Stefano Checchia; Pierre Adrien Mante; Jennifer Zimara; Dirk Schwarzer; Serhiy Demeshko; Vadim Murzin; David Gosztola; Martin Jarenmark; Jianxin Zhang; Matthias Bauer; Max Latevi Lawson Daku; Dmitry Khakhulin; Wojciech Gawelda; Christian Bressler; Franc Meyer; Kaibo Zheng; Sophie E. Canton

doi:10.1063/1.5138641

Exploring the light-induced dynamics in solvated metallogrid complexes with femtosecond pulses across the electromagnetic spectrum

Maria A. Naumova, Aleksandr Kalinko, Joanne W.L. Wong, Sol Alvarez Gutierrez, Jie Meng, Mingli Liang, Mohamed Abdellah, Huifang Geng, Weihua Lin, Katharina Kubicek, Mykola Biednov, Frederico Lima, Andreas Galler, Peter Zalden, Stefano Checchia, Pierre Adrien Mante, Jennifer Zimara, Dirk Schwarzer, Serhiy Demeshko, Vadim MurzinDavid Gosztola, Martin Jarenmark, Jianxin Zhang, Matthias Bauer, Max Latevi Lawson Daku, Dmitry Khakhulin, Wojciech Gawelda, Christian Bressler, Franc Meyer, Kaibo Zheng, Sophie E. Canton

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Abstract

Oligonuclear complexes of d4-d7 transition metal ion centers that undergo spin-switching have long been developed for their practical role in molecular electronics. Recently, they also have appeared as promising photochemical reactants demonstrating improved stability. However, the lack of knowledge about their photophysical properties in the solution phase compared to mononuclear complexes is currently hampering their inclusion into advanced light-driven reactions. In the present study, the ultrafast photoinduced dynamics in a solvated [2 × 2] iron(II) metallogrid complex are characterized by combining measurements with transient optical-infrared absorption and x-ray emission spectroscopy on the femtosecond time scale. The analysis is supported by density functional theory calculations. The photocycle can be described in terms of intra-site transitions, where the FeII centers in the low-spin state are independently photoexcited. The Franck-Condon state decays via the formation of a vibrationally hot high-spin (HS) state that displays coherent behavior within a few picoseconds and thermalizes within tens of picoseconds to yield a metastable HS state living for several hundreds of nanoseconds. Systematic comparison with the closely related mononuclear complex [Fe(terpy)2]2+ reveals that nuclearity has a profound impact on the photoinduced dynamics. More generally, this work provides guidelines for expanding the integration of oligonuclear complexes into new photoconversion schemes that may be triggered by ultrafast spin-switching.

Original language	English
Pages (from-to)	214301
Number of pages	1
Journal	Journal of Chemical Physics
Volume	152
Issue number	21
DOIs	https://doi.org/10.1063/1.5138641
Publication status	Published - Jun 7 2020
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy
Physical and Theoretical Chemistry

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10.1063/1.5138641

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Naumova, M. A., Kalinko, A., Wong, J. W. L., Alvarez Gutierrez, S., Meng, J., Liang, M., Abdellah, M., Geng, H., Lin, W., Kubicek, K., Biednov, M., Lima, F., Galler, A., Zalden, P., Checchia, S., Mante, P. A., Zimara, J., Schwarzer, D., Demeshko, S., ... Canton, S. E. (2020). Exploring the light-induced dynamics in solvated metallogrid complexes with femtosecond pulses across the electromagnetic spectrum. Journal of Chemical Physics, 152(21), 214301. https://doi.org/10.1063/1.5138641

Naumova, MA, Kalinko, A, Wong, JWL, Alvarez Gutierrez, S, Meng, J, Liang, M, Abdellah, M, Geng, H, Lin, W, Kubicek, K, Biednov, M, Lima, F, Galler, A, Zalden, P, Checchia, S, Mante, PA, Zimara, J, Schwarzer, D, Demeshko, S, Murzin, V, Gosztola, D, Jarenmark, M, Zhang, J, Bauer, M, Lawson Daku, ML, Khakhulin, D, Gawelda, W, Bressler, C, Meyer, F, Zheng, K & Canton, SE 2020, 'Exploring the light-induced dynamics in solvated metallogrid complexes with femtosecond pulses across the electromagnetic spectrum', Journal of Chemical Physics, vol. 152, no. 21, pp. 214301. https://doi.org/10.1063/1.5138641

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title = "Exploring the light-induced dynamics in solvated metallogrid complexes with femtosecond pulses across the electromagnetic spectrum",

abstract = "Oligonuclear complexes of d4-d7 transition metal ion centers that undergo spin-switching have long been developed for their practical role in molecular electronics. Recently, they also have appeared as promising photochemical reactants demonstrating improved stability. However, the lack of knowledge about their photophysical properties in the solution phase compared to mononuclear complexes is currently hampering their inclusion into advanced light-driven reactions. In the present study, the ultrafast photoinduced dynamics in a solvated [2 × 2] iron(II) metallogrid complex are characterized by combining measurements with transient optical-infrared absorption and x-ray emission spectroscopy on the femtosecond time scale. The analysis is supported by density functional theory calculations. The photocycle can be described in terms of intra-site transitions, where the FeII centers in the low-spin state are independently photoexcited. The Franck-Condon state decays via the formation of a vibrationally hot high-spin (HS) state that displays coherent behavior within a few picoseconds and thermalizes within tens of picoseconds to yield a metastable HS state living for several hundreds of nanoseconds. Systematic comparison with the closely related mononuclear complex [Fe(terpy)2]2+ reveals that nuclearity has a profound impact on the photoinduced dynamics. More generally, this work provides guidelines for expanding the integration of oligonuclear complexes into new photoconversion schemes that may be triggered by ultrafast spin-switching.",

author = "Naumova, {Maria A.} and Aleksandr Kalinko and Wong, {Joanne W.L.} and {Alvarez Gutierrez}, Sol and Jie Meng and Mingli Liang and Mohamed Abdellah and Huifang Geng and Weihua Lin and Katharina Kubicek and Mykola Biednov and Frederico Lima and Andreas Galler and Peter Zalden and Stefano Checchia and Mante, {Pierre Adrien} and Jennifer Zimara and Dirk Schwarzer and Serhiy Demeshko and Vadim Murzin and David Gosztola and Martin Jarenmark and Jianxin Zhang and Matthias Bauer and {Lawson Daku}, {Max Latevi} and Dmitry Khakhulin and Wojciech Gawelda and Christian Bressler and Franc Meyer and Kaibo Zheng and Canton, {Sophie E.}",

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doi = "10.1063/1.5138641",

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T1 - Exploring the light-induced dynamics in solvated metallogrid complexes with femtosecond pulses across the electromagnetic spectrum

AU - Naumova, Maria A.

AU - Kalinko, Aleksandr

AU - Wong, Joanne W.L.

AU - Alvarez Gutierrez, Sol

AU - Meng, Jie

AU - Liang, Mingli

AU - Abdellah, Mohamed

AU - Geng, Huifang

AU - Lin, Weihua

AU - Kubicek, Katharina

AU - Biednov, Mykola

AU - Lima, Frederico

AU - Galler, Andreas

AU - Zalden, Peter

AU - Checchia, Stefano

AU - Mante, Pierre Adrien

AU - Zimara, Jennifer

AU - Schwarzer, Dirk

AU - Demeshko, Serhiy

AU - Murzin, Vadim

AU - Gosztola, David

AU - Jarenmark, Martin

AU - Zhang, Jianxin

AU - Bauer, Matthias

AU - Lawson Daku, Max Latevi

AU - Khakhulin, Dmitry

AU - Gawelda, Wojciech

AU - Bressler, Christian

AU - Meyer, Franc

AU - Zheng, Kaibo

AU - Canton, Sophie E.

PY - 2020/6/7

Y1 - 2020/6/7

N2 - Oligonuclear complexes of d4-d7 transition metal ion centers that undergo spin-switching have long been developed for their practical role in molecular electronics. Recently, they also have appeared as promising photochemical reactants demonstrating improved stability. However, the lack of knowledge about their photophysical properties in the solution phase compared to mononuclear complexes is currently hampering their inclusion into advanced light-driven reactions. In the present study, the ultrafast photoinduced dynamics in a solvated [2 × 2] iron(II) metallogrid complex are characterized by combining measurements with transient optical-infrared absorption and x-ray emission spectroscopy on the femtosecond time scale. The analysis is supported by density functional theory calculations. The photocycle can be described in terms of intra-site transitions, where the FeII centers in the low-spin state are independently photoexcited. The Franck-Condon state decays via the formation of a vibrationally hot high-spin (HS) state that displays coherent behavior within a few picoseconds and thermalizes within tens of picoseconds to yield a metastable HS state living for several hundreds of nanoseconds. Systematic comparison with the closely related mononuclear complex [Fe(terpy)2]2+ reveals that nuclearity has a profound impact on the photoinduced dynamics. More generally, this work provides guidelines for expanding the integration of oligonuclear complexes into new photoconversion schemes that may be triggered by ultrafast spin-switching.

AB - Oligonuclear complexes of d4-d7 transition metal ion centers that undergo spin-switching have long been developed for their practical role in molecular electronics. Recently, they also have appeared as promising photochemical reactants demonstrating improved stability. However, the lack of knowledge about their photophysical properties in the solution phase compared to mononuclear complexes is currently hampering their inclusion into advanced light-driven reactions. In the present study, the ultrafast photoinduced dynamics in a solvated [2 × 2] iron(II) metallogrid complex are characterized by combining measurements with transient optical-infrared absorption and x-ray emission spectroscopy on the femtosecond time scale. The analysis is supported by density functional theory calculations. The photocycle can be described in terms of intra-site transitions, where the FeII centers in the low-spin state are independently photoexcited. The Franck-Condon state decays via the formation of a vibrationally hot high-spin (HS) state that displays coherent behavior within a few picoseconds and thermalizes within tens of picoseconds to yield a metastable HS state living for several hundreds of nanoseconds. Systematic comparison with the closely related mononuclear complex [Fe(terpy)2]2+ reveals that nuclearity has a profound impact on the photoinduced dynamics. More generally, this work provides guidelines for expanding the integration of oligonuclear complexes into new photoconversion schemes that may be triggered by ultrafast spin-switching.

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Exploring the light-induced dynamics in solvated metallogrid complexes with femtosecond pulses across the electromagnetic spectrum

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