Trityl-Aryl-Nitroxide-Based Genuinely g-Engineered Biradicals, As Studied by Dynamic Nuclear Polarization, Multifrequency ESR/ENDOR, Arbitrary Wave Generator Pulse Microwave Waveform Spectroscopy, and Quantum Chemical Calculations

Sato, K.; Hirao, R.; Timofeev, I.; Krumkacheva, O.; Zaytseva, E.; Rogozhnikova, O.; Tormyshev, V. M.; Trukhin, D.; Bagryanskaya, E.; Gutmann, Torsten; Klimavicius, C.; Buntkowsky, G.; Sugisaki, K.; Nakazawa, S.; Matsuoka, H.; Toyota, K.; Shiomi, D.; Takui, T.

Trityl-Aryl-Nitroxide-Based Genuinely g-Engineered Biradicals, As Studied by Dynamic Nuclear Polarization, Multifrequency ESR/ENDOR, Arbitrary Wave Generator Pulse Microwave Waveform Spectroscopy, and Quantum Chemical Calculations

K. Sato, R. Hirao, I. Timofeev, O. Krumkacheva, E. Zaytseva, O. Rogozhnikova, V.M. Tormyshev, D. Trukhin, E. Bagryanskaya, T. Gutmann, C. Klimavicius, G. Buntkowsky, K. Sugisaki, S. Nakazawa, H. Matsuoka, K. Toyota, D. Shiomi, T. Takui, Journal of Physical Chemistry A 123 (2019) 7507–7517.

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DOI

10.1021/acs.jpca.9b07169

Journal Article | English

Author

Sato, K.; Hirao, R.; Timofeev, I.; Krumkacheva, O.; Zaytseva, E.; Rogozhnikova, O.; Tormyshev, V. M.; Trukhin, D.; Bagryanskaya, E.; Gutmann, Torsten^LibreCat; Klimavicius, C.; Buntkowsky, G.
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Abstract

Trityl and nitroxide radicals are connected by pi-topologically controlled aryl linkers, generating genuinely g-engineered biradicals. They serve as a typical model for biradicals in which the exchange (J) and hyperfine interactions compete with the g-difference electronic Zeeman interactions. The magnetic properties underlying the biradical spin Hamiltonian for solution, including J’s, have been determined by multifrequency CW-ESR and H-1 ENDOR spectroscopy and compared with those obtained by quantum chemical calculations. The experimental J values were in good agreement with the quantum chemical calculations. The g-engineered biradicals have been tested as a prototype for AWG (Arbitrary Wave Generator)-based spin manipulation techniques, which enable GRAPE (GRAdient Pulse Engineering) microwave control of spins in molecular magnetic resonance spectroscopy for use in molecular spin quantum computers, demonstrating efficient signal enhancement of specific weakened hyperfine signals. Dynamic nuclear polarization (DNP) effects of the biradicals for 400 MHz nuclear magnetic resonance signal enhancement have been examined, giving efficiency factors of 30 for H-1 and 27.8 for C-13 nuclei. The marked DNP results show the feasibility of these biradicals for hyperpolarization.

Publishing Year

2019

Journal Title

Journal of Physical Chemistry A

Volume

123

Issue

Page

7507–7517

LibreCat-ID

64035

Cite this

Sato K, Hirao R, Timofeev I, et al. Trityl-Aryl-Nitroxide-Based Genuinely g-Engineered Biradicals, As Studied by Dynamic Nuclear Polarization, Multifrequency ESR/ENDOR, Arbitrary Wave Generator Pulse Microwave Waveform Spectroscopy, and Quantum Chemical Calculations. Journal of Physical Chemistry A. 2019;123(34):7507–7517. doi:10.1021/acs.jpca.9b07169

Sato, K., Hirao, R., Timofeev, I., Krumkacheva, O., Zaytseva, E., Rogozhnikova, O., Tormyshev, V. M., Trukhin, D., Bagryanskaya, E., Gutmann, T., Klimavicius, C., Buntkowsky, G., Sugisaki, K., Nakazawa, S., Matsuoka, H., Toyota, K., Shiomi, D., & Takui, T. (2019). Trityl-Aryl-Nitroxide-Based Genuinely g-Engineered Biradicals, As Studied by Dynamic Nuclear Polarization, Multifrequency ESR/ENDOR, Arbitrary Wave Generator Pulse Microwave Waveform Spectroscopy, and Quantum Chemical Calculations. Journal of Physical Chemistry A, 123(34), 7507–7517. https://doi.org/10.1021/acs.jpca.9b07169

@article{Sato_Hirao_Timofeev_Krumkacheva_Zaytseva_Rogozhnikova_Tormyshev_Trukhin_Bagryanskaya_Gutmann_et al._2019, title={Trityl-Aryl-Nitroxide-Based Genuinely g-Engineered Biradicals, As Studied by Dynamic Nuclear Polarization, Multifrequency ESR/ENDOR, Arbitrary Wave Generator Pulse Microwave Waveform Spectroscopy, and Quantum Chemical Calculations}, volume={123}, DOI={10.1021/acs.jpca.9b07169}, number={34}, journal={Journal of Physical Chemistry A}, author={Sato, K. and Hirao, R. and Timofeev, I. and Krumkacheva, O. and Zaytseva, E. and Rogozhnikova, O. and Tormyshev, V. M. and Trukhin, D. and Bagryanskaya, E. and Gutmann, Torsten and et al.}, year={2019}, pages={7507–7517} }

Sato, K., R. Hirao, I. Timofeev, O. Krumkacheva, E. Zaytseva, O. Rogozhnikova, V. M. Tormyshev, et al. “Trityl-Aryl-Nitroxide-Based Genuinely g-Engineered Biradicals, As Studied by Dynamic Nuclear Polarization, Multifrequency ESR/ENDOR, Arbitrary Wave Generator Pulse Microwave Waveform Spectroscopy, and Quantum Chemical Calculations.” Journal of Physical Chemistry A 123, no. 34 (2019): 7507–7517. https://doi.org/10.1021/acs.jpca.9b07169.

K. Sato et al., “Trityl-Aryl-Nitroxide-Based Genuinely g-Engineered Biradicals, As Studied by Dynamic Nuclear Polarization, Multifrequency ESR/ENDOR, Arbitrary Wave Generator Pulse Microwave Waveform Spectroscopy, and Quantum Chemical Calculations,” Journal of Physical Chemistry A, vol. 123, no. 34, pp. 7507–7517, 2019, doi: 10.1021/acs.jpca.9b07169.

Sato, K., et al. “Trityl-Aryl-Nitroxide-Based Genuinely g-Engineered Biradicals, As Studied by Dynamic Nuclear Polarization, Multifrequency ESR/ENDOR, Arbitrary Wave Generator Pulse Microwave Waveform Spectroscopy, and Quantum Chemical Calculations.” Journal of Physical Chemistry A, vol. 123, no. 34, 2019, pp. 7507–7517, doi:10.1021/acs.jpca.9b07169.

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