Publikationen von Markus Hiller

Zeitschriftenartikel (8)

1.
Zeitschriftenartikel
Wiechers, H.; Kehl, A.; Hiller, M.; Eltzner, B.; Huckemann, S.F.; Meyer, A.; Tkach, I.; Bennati, M.; Pokern, Y.: Bayesian optimization to estimate hyperfine couplings from 19F ENDOR spectra. Journal of Magnetic Resonance 353, 107491 (2023)
2.
Zeitschriftenartikel
Hecker, F.; Fries, L.; Hiller, M.; Chiesa, M.; Bennati, M.: 17O Hyperfine Spectroscopy Reveals Hydration Structure of Nitroxide Radicals in Aqueous Solutions. Angewandte Chemie, International Edition in English 62 (4), e202213700 (2023)
3.
Zeitschriftenartikel
Hiller, M.; Tkach, I.; Wiechers, H.; Eltzner, B.; Huckemann, S.; Pokern, Y.; Bennati, M.: Distribution of Hβ hyperfine couplings in a tyrosyl radical revealed by 263 GHz ENDOR spectroscopy. Applied Magnetic Resonance 53 (7-9), S. 1015 - 1030 (2022)
4.
Zeitschriftenartikel
Kehl, A.; Hiller, M.; Hecker, F.; Tkach, I.; Dechert, S.; Bennati, M.; Meyer, A.: Resolution of chemical shift anisotropy in 19F ENDOR spectroscopy at 263 GHz/9.4 T. Journal of Magnetic Resonance 333, 107091 (2021)
5.
Zeitschriftenartikel
Hiller, M.; Tkach, I.; Wiechers, H.; Eltzner, B.; Huckemann, S.; Pokern, Y.; Bennati, M.: Distribution of Hβ hyperfine couplings in a tyrosyl radical revealed by 263 GHz ENDOR spectroscopy. Applied Magnetic Resonance, In Press (2021)
6.
Zeitschriftenartikel
Levien, M.; Reinhard, M.; Hiller, M.; Tkach, I.; Bennati, M.; Orlando, T.: Spin density localization and accessibility in organic radicals for liquid-state DNP efficiency. Physical Chemistry Chemical Physics 23 (8), S. 4480 - 4485 (2021)
7.
Zeitschriftenartikel
Levien, M.; Hiller, M.; Tkach, I.; Bennati, M.; Orlando, T.: Nitroxide derivatives for dynamic nuclear polarization in liquids: The role of rotational diffusion. The Journal of Physical Chemistry Letters 11 (5), S. 1629 - 1635 (2020)
8.
Zeitschriftenartikel
Tkach, I.; Bejenke, I.; Hecker, F.; Kehl, A.; Kasanmascheff, M.; Gromov, I.; Prisecaru, I.; Höfer, P.; Hiller, M.; Bennati, M.: 1H high field electron-nuclear double resonance spectroscopy at 263 GHz/9.4 T. Journal of Magnetic Resonance 303, S. 17 - 27 (2019)
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