Journal of the American Chemical Society

, том 136 , издание 28 , страницы 10132-10138

Photoswitching of a Thermally Unswitchable Molecular Magnet Cu(hfac)2Li-Pr Evidenced by Steady-State and Time-Resolved Electron Paramagnetic Resonance

Тип публикации: Journal Article

Дата публикации: 2014-07-02

American Chemical Society (ACS)

Journal of the American Chemical Society

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SJR: 5.489

CiteScore: 24.4

Impact factor: 15.6

ISSN: 00027863, 15205126

DOI: 10.1021/ja504774q

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PubMed ID: 24960618

General Chemistry

Catalysis

Biochemistry

Colloid and Surface Chemistry

Краткое описание

Most photoswitchable molecular magnets exhibit thermally induced switching, as is typical of spin crossover (SCO), valence tautomerism and SCO-like phenomena. We report a rare case of a copper-nitroxide based molecular magnet Cu(hfac)2L(i-Pr) that does not exhibit quantitative SCO-like behavior in the temperature range of its chemical stability (2-350 K); however, it can be switched to a metastable thermally inaccessible spin state via visible/near-IR light at cryogenic temperatures. By means of photogeneration, unique information on this otherwise unobservable spin state has been obtained using steady-state Q-band (34 GHz) and time-resolved W-band (94 GHz) electron paramagnetic resonance (EPR) spectroscopy. In particular, we have found that the electronic structure and relaxation properties of the photoinduced state in Cu(hfac)2L(i-Pr) are very similar to those in its sister compound Cu(hfac)2L(n-Pr) that is thermally switchable and has been exhaustively characterized by many analytical methods, previously. The first observation of photoswitchable behavior in a thermally unswitchable copper-nitroxide based molecular magnet Cu(hfac)2L(i-Pr) paves the way for photoswitching applications of this and similar compounds in the remarkably broad temperature range of 2-350 K.

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Barskaya I. Yu. et al. Photoswitching of a Thermally Unswitchable Molecular Magnet Cu(hfac)2Li-Pr Evidenced by Steady-State and Time-Resolved Electron Paramagnetic Resonance // Journal of the American Chemical Society. 2014. Vol. 136. No. 28. pp. 10132-10138.

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Barskaya I. Yu., Tretyakov E., Sagdeev R. Z., Ovcharenko V., Bagryanskaya E. G., Maryunina K. Yu., Takui T., SATO K., Fedin M. Photoswitching of a Thermally Unswitchable Molecular Magnet Cu(hfac)2Li-Pr Evidenced by Steady-State and Time-Resolved Electron Paramagnetic Resonance // Journal of the American Chemical Society. 2014. Vol. 136. No. 28. pp. 10132-10138.

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TY - JOUR

DO - 10.1021/ja504774q

UR - https://doi.org/10.1021/ja504774q

TI - Photoswitching of a Thermally Unswitchable Molecular Magnet Cu(hfac)2Li-Pr Evidenced by Steady-State and Time-Resolved Electron Paramagnetic Resonance

T2 - Journal of the American Chemical Society

AU - Barskaya, Irina Yu

AU - Tretyakov, Evgeny

AU - Sagdeev, Renad Z

AU - Ovcharenko, V.

AU - Bagryanskaya, Elena G.

AU - Maryunina, Kseniya Yu

AU - Takui, T.

AU - SATO, Kazunobu

AU - Fedin, Matvey

PY - 2014

DA - 2014/07/02

PB - American Chemical Society (ACS)

SP - 10132-10138

IS - 28

VL - 136

PMID - 24960618

SN - 0002-7863

SN - 1520-5126

ER -

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@article{2014_Barskaya,

author = {Irina Yu Barskaya and Evgeny Tretyakov and Renad Z Sagdeev and V. Ovcharenko and Elena G. Bagryanskaya and Kseniya Yu Maryunina and T. Takui and Kazunobu SATO and Matvey Fedin},

title = {Photoswitching of a Thermally Unswitchable Molecular Magnet Cu(hfac)2Li-Pr Evidenced by Steady-State and Time-Resolved Electron Paramagnetic Resonance},

journal = {Journal of the American Chemical Society},

year = {2014},

volume = {136},

publisher = {American Chemical Society (ACS)},

month = {jul},

url = {https://doi.org/10.1021/ja504774q},

number = {28},

pages = {10132--10138},

doi = {10.1021/ja504774q}

}

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Barskaya, Irina Yu., et al. “Photoswitching of a Thermally Unswitchable Molecular Magnet Cu(hfac)2Li-Pr Evidenced by Steady-State and Time-Resolved Electron Paramagnetic Resonance.” Journal of the American Chemical Society, vol. 136, no. 28, Jul. 2014, pp. 10132-10138. https://doi.org/10.1021/ja504774q.