Vladislav Sláma
Affiliations: | University of Pisa, Pisa, Toscana, Italy |
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Parents
Sign in to add mentor| Tomáš Mančal | grad student | 2018 | Charles University |
| Benedetta Mennucci | post-doc | University of Pisa (Chemistry Tree) |
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Publications
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| Saraceno P, Sláma V, Cupellini L. (2023) First-principles simulation of excitation energy transfer and transient absorption spectroscopy in the CP29 light-harvesting complex. The Journal of Chemical Physics. 159 |
| Sláma V, Cupellini L, Mascoli V, et al. (2023) Origin of Low-Lying Red States in the Lhca4 Light-Harvesting Complex of Photosystem I. The Journal of Physical Chemistry Letters. 14: 8345-8352 |
| Xu Y, Mewes L, Thyrhaug E, et al. (2023) Isolating Pure Donor and Acceptor Signals by Polarization-Controlled Transient Absorption Spectroscopy. The Journal of Physical Chemistry Letters. 5390-5396 |
| Sláma V, Cupellini L, Mennucci B. (2022) Excitonic Nature of Carotenoid-Phthalocyanine Dyads and Its Role in Transient Absorption Spectra. Acs Physical Chemistry Au. 2: 206-215 |
| Sláma V, Rajabi S, Mančal T. (2022) Fluorographene with impurities as a biomimetic light-harvesting medium. The Journal of Chemical Physics. 156: 185102 |
| Cignoni E, Slama V, Cupellini L, et al. (2022) The atomistic modeling of light-harvesting complexes from the physical models to the computational protocol. The Journal of Chemical Physics. 156: 120901 |
| Guarnetti Prandi I, Sláma V, Pecorilla C, et al. (2022) Structure of the stress-related LHCSR1 complex determined by an integrated computational strategy. Communications Biology. 5: 145 |
| Sláma V, Perlík V, Langhals H, et al. (2020) Anharmonic Molecular Motion Drives Resonance Energy Transfer in Arylene Dyads. Frontiers in Chemistry. 8: 579166 |
| Sláma V, Cupellini L, Mennucci B. (2020) Exciton properties and optical spectra of light harvesting complex II from a fully atomistic description. Physical Chemistry Chemical Physics : Pccp. 22: 16783-16795 |
| Seibt J, Sláma V, Mančal T. (2016) Optical spectroscopy and system–bath interactions in molecular aggregates with full configuration interaction Frenkel exciton model Chemical Physics. 481: 218-230 |