W-band transient EPR and photoinduced absorption on spin-labeled fullerene derivatives

Moons, Hans; Goovaerts, E.; Gubskaya, V. P.; Нуретдинов, И. А.; Corvaja, Carlo; Franco, Lorenzo

doi:10.1039/c0cp01902j

Cited by 22 publications

(13 citation statements)

References 74 publications

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“…17 and 21, for FN we observe signatures of a polarized nitroxide radical S = 1/2 corresponding to the D S0 state and of the photo-excited Q T1 state. 17,21,23,24 These two components can be distinguished according to their g-factors and nitroxide hyperfine splittings and are also observed here in FN-1a and FN-2a ( Fig. 1 and Fig.…”

Section: Cw-transient and Pulse Epr Of Photoexcited Fnssupporting

confidence: 71%

“…20 Besides, the photo-excited state properties of fullerene-nitroxide (FN) have been extensively investigated by Corvaja and coworkers. 17,[21][22][23] Scheme 1B illustrates a simplified electronic-state diagram of photo-excited FN. 22 The C 60 and nitroxide moieties of FN can be considered as two separate electronic entities with electronic excitation localized on the fullerene.…”

Section: Introductionmentioning

confidence: 99%

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Photo-induced radical polarization and liquid-state dynamic nuclear polarization using fullerene nitroxide derivatives

Liu

Liou

Enkin

et al. 2017

Phys. Chem. Chem. Phys.

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We report on radical polarization and optically-driven liquid DNP using nitroxide radicals functionalized by photoexcitable fullerene derivatives. Pulse laser excitation of the fullerene moiety leads to transient nitroxide radical polarization that is one order of magnitude larger than that at the Boltzmann equilibrium. The life time of the radical polarization increases with the size of the fullerene derivative and is correlated with the electronic spin-lattice relaxation time T. Overhauser NMR signal enhancements of toluene solvent protons were observed under steady-state illumination, which replaced microwave irradiation.

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Section: Cw-transient and Pulse Epr Of Photoexcited Fnssupporting

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Photo-induced radical polarization and liquid-state dynamic nuclear polarization using fullerene nitroxide derivatives

Liu

Liou

Enkin

et al. 2017

Phys. Chem. Chem. Phys.

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“…Figure b shows the time‐resolved ESR spectrum of a quartet state with a fine‐structure splitting observed for tetraphenylporphilinato‐zinc(II) coordinated by p ‐pyridyl nitronyl‐nitroxide (Zn‐TTP‐nipy) diluted in a toluene glass matrix. Later, additional homologous systems have been also reported . Furthermore, Ishii et al.…”

Section: Excited‐state Dynamics Of Non‐luminescent π‐Radicalsmentioning

confidence: 97%

Excited‐State Dynamics of Non‐Luminescent and Luminescent π‐Radicals

Teki

2019

Chemistry A European J

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Recently,t he potentialu se of organic p-radicals and relateds pin systems has been expanded to modern technological applications. The unique excited-state dynamics of organic p-radicals can be useful to improvet he stability of photochemically unstable organic compounds, make the polarization transfer applicable to information technology,a nd achieve effective up-conversion of interest for luminescence bioimaging, amongo thers. Furthermore, highly luminescent stable p-radicalsh ave been recently reported, which are especially interesting fora pplication in organic light-emitting devices owing to their potentialt op rovide an internal quantum efficiency of 100 %. Thus,t he excited-state nature of stable p-radicalsa sw ell as the control of their excited-state spin dynamics are emerging topics both in terms of fundamental science and related technological applications. In this minireview,w ef ocus on the excited-state dynamics of both photostable non(weakly)-luminescent and luminescent p-radicals, which are opposites of each other.I n particular, we cover the following topics:1 )effective generation of high-spin photoexcited states and control of the excited-state dynamics by using non-luminescent p-radicals, 2) unique excited-state dynamics of luminescent p-radicals and radical excimers, and 3) applicationsu tilizing excitedstate dynamics of p-radicals.[a] Prof.

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“…In strongly coupled systems, mixing of the trip-doublet and trip-quartet sublevels by the zero-field splitting (ZFS) of the chromophore is sometimes invoked to explain the observed spin polarization. , In the moderately coupled case, the trip-doublet and trip-quartet states are determined not only by the ZFS of the chromophore but also by the exchange and Zeeman interactions . These systems have attracted strong interest due to their compact, rigid structures and rich photophysical properties ,,,,,− that can be exploited for producing nuclear hyperpolarization in some cases …”

mentioning

confidence: 99%