Thermodynamic equilibrium between locally excited and charge-transfer states through thermally activated charge transfer in 1-(pyren-2′-yl)-o-carborane

Lei Ji; Stefan Riese; Alexander Schmiedel; Marco Holzapfel; Maximillian Fest; Jörn Nitsch; Basile F.E. Curchod; Alexandra Friedrich; Lin Wu; Hamad H. Al Mamari; Sebastian Hammer; Jens Pflaum; Mark A. Fox; David J. Tozer; Maik Finze; Christoph Lambert; Todd B. Marder

doi:10.1039/d1sc06867a

Thermodynamic equilibrium between locally excited and charge-transfer states through thermally activated charge transfer in 1-(pyren-2′-yl)-o-carborane

Lei Ji^*, Stefan Riese, Alexander Schmiedel, Marco Holzapfel, Maximillian Fest, Jörn Nitsch, Basile F.E. Curchod^*, Alexandra Friedrich, Lin Wu, Hamad H. Al Mamari, Sebastian Hammer, Jens Pflaum, Mark A. Fox, David J. Tozer, Maik Finze, Christoph Lambert^*, Todd B. Marder^*

^*المؤلف المقابل لهذا العمل

Chemistry

نتاج البحث: المساهمة في مجلة › Article › مراجعة النظراء

14 اقتباسات (Scopus)

ملخص

Reversible conversion between excited-states plays an important role in many photophysical phenomena. Using 1-(pyren-2′-yl)-o-carborane as a model, we studied the photoinduced reversible charge-transfer (CT) process and the thermodynamic equilibrium between the locally-excited (LE) state and CT state, by combining steady state, time-resolved, and temperature-dependent fluorescence spectroscopy, fs- and ns-transient absorption, and DFT and LR-TDDFT calculations. Our results show that the energy gaps and energy barriers between the LE, CT, and a non-emissive ‘mixed’ state of 1-(pyren-2′-yl)-o-carborane are very small, and all three excited states are accessible at room temperature. The internal-conversion and reverse internal-conversion between LE and CT states are significantly faster than the radiative decay, and the two states have the same lifetimes and are in thermodynamic equilibrium.

اللغة الأصلية	English
الصفحات (من إلى)	5205-5219
عدد الصفحات	15
دورية	Chemical Science
مستوى الصوت	13
رقم الإصدار	18
المعرِّفات الرقمية للأشياء	https://doi.org/10.1039/d1sc06867a
حالة النشر	Published - يناير 1 2022

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10.1039/d1sc06867a

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Ji, L., Riese, S., Schmiedel, A., Holzapfel, M., Fest, M., Nitsch, J., Curchod, B. F. E., Friedrich, A., Wu, L., Al Mamari, H. H., Hammer, S., Pflaum, J., Fox, M. A., Tozer, D. J., Finze, M., Lambert, C., & Marder, T. B. (2022). Thermodynamic equilibrium between locally excited and charge-transfer states through thermally activated charge transfer in 1-(pyren-2′-yl)-o-carborane. Chemical Science, 13(18), 5205-5219. https://doi.org/10.1039/d1sc06867a

Thermodynamic equilibrium between locally excited and charge-transfer states through thermally activated charge transfer in 1-(pyren-2′-yl)-o-carborane. / Ji, Lei; Riese, Stefan; Schmiedel, Alexander وآخرون.
في: Chemical Science, المجلد 13, رقم 18, ٠١.٠١.٢٠٢٢, صفحة 5205-5219.

نتاج البحث: المساهمة في مجلة › Article › مراجعة النظراء

Ji, L, Riese, S, Schmiedel, A, Holzapfel, M, Fest, M, Nitsch, J, Curchod, BFE, Friedrich, A, Wu, L, Al Mamari, HH, Hammer, S, Pflaum, J, Fox, MA, Tozer, DJ, Finze, M, Lambert, C & Marder, TB 2022, 'Thermodynamic equilibrium between locally excited and charge-transfer states through thermally activated charge transfer in 1-(pyren-2′-yl)-o-carborane', Chemical Science, المجلد 13, رقم 18, الصفحات 5205-5219. https://doi.org/10.1039/d1sc06867a

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title = "Thermodynamic equilibrium between locally excited and charge-transfer states through thermally activated charge transfer in 1-(pyren-2′-yl)-o-carborane",

abstract = "Reversible conversion between excited-states plays an important role in many photophysical phenomena. Using 1-(pyren-2′-yl)-o-carborane as a model, we studied the photoinduced reversible charge-transfer (CT) process and the thermodynamic equilibrium between the locally-excited (LE) state and CT state, by combining steady state, time-resolved, and temperature-dependent fluorescence spectroscopy, fs- and ns-transient absorption, and DFT and LR-TDDFT calculations. Our results show that the energy gaps and energy barriers between the LE, CT, and a non-emissive {\textquoteleft}mixed{\textquoteright} state of 1-(pyren-2′-yl)-o-carborane are very small, and all three excited states are accessible at room temperature. The internal-conversion and reverse internal-conversion between LE and CT states are significantly faster than the radiative decay, and the two states have the same lifetimes and are in thermodynamic equilibrium.",

author = "Lei Ji and Stefan Riese and Alexander Schmiedel and Marco Holzapfel and Maximillian Fest and J{\"o}rn Nitsch and Curchod, {Basile F.E.} and Alexandra Friedrich and Lin Wu and {Al Mamari}, {Hamad H.} and Sebastian Hammer and Jens Pflaum and Fox, {Mark A.} and Tozer, {David J.} and Maik Finze and Christoph Lambert and Marder, {Todd B.}",

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month = jan,

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doi = "10.1039/d1sc06867a",

language = "English",

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T1 - Thermodynamic equilibrium between locally excited and charge-transfer states through thermally activated charge transfer in 1-(pyren-2′-yl)-o-carborane

AU - Ji, Lei

AU - Riese, Stefan

AU - Schmiedel, Alexander

AU - Holzapfel, Marco

AU - Fest, Maximillian

AU - Nitsch, Jörn

AU - Curchod, Basile F.E.

AU - Friedrich, Alexandra

AU - Wu, Lin

AU - Al Mamari, Hamad H.

AU - Hammer, Sebastian

AU - Pflaum, Jens

AU - Fox, Mark A.

AU - Tozer, David J.

AU - Finze, Maik

AU - Lambert, Christoph

AU - Marder, Todd B.

PY - 2022/1/1

Y1 - 2022/1/1

N2 - Reversible conversion between excited-states plays an important role in many photophysical phenomena. Using 1-(pyren-2′-yl)-o-carborane as a model, we studied the photoinduced reversible charge-transfer (CT) process and the thermodynamic equilibrium between the locally-excited (LE) state and CT state, by combining steady state, time-resolved, and temperature-dependent fluorescence spectroscopy, fs- and ns-transient absorption, and DFT and LR-TDDFT calculations. Our results show that the energy gaps and energy barriers between the LE, CT, and a non-emissive ‘mixed’ state of 1-(pyren-2′-yl)-o-carborane are very small, and all three excited states are accessible at room temperature. The internal-conversion and reverse internal-conversion between LE and CT states are significantly faster than the radiative decay, and the two states have the same lifetimes and are in thermodynamic equilibrium.

AB - Reversible conversion between excited-states plays an important role in many photophysical phenomena. Using 1-(pyren-2′-yl)-o-carborane as a model, we studied the photoinduced reversible charge-transfer (CT) process and the thermodynamic equilibrium between the locally-excited (LE) state and CT state, by combining steady state, time-resolved, and temperature-dependent fluorescence spectroscopy, fs- and ns-transient absorption, and DFT and LR-TDDFT calculations. Our results show that the energy gaps and energy barriers between the LE, CT, and a non-emissive ‘mixed’ state of 1-(pyren-2′-yl)-o-carborane are very small, and all three excited states are accessible at room temperature. The internal-conversion and reverse internal-conversion between LE and CT states are significantly faster than the radiative decay, and the two states have the same lifetimes and are in thermodynamic equilibrium.

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Thermodynamic equilibrium between locally excited and charge-transfer states through thermally activated charge transfer in 1-(pyren-2′-yl)-o-carborane

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