Revealing vibronic coupling in chlorophyll c1 by polarization-controlled 2D electronic spectroscopy

Bukartė, Eglė; Haufe, A.; Paleček, David; Büchel, Claudia; Zigmantas, Donatas

doi:10.1016/j.chemphys.2019.110643

Cited by 22 publications

(10 citation statements)

References 35 publications

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“…Figure summarizes the results obtained for the PPh- ap monomer in MeOH. The dynamics of the PPh- ap aggregate closely resemble what has already been found for other isolated tetrapyrrole pigments in solution. − The signal is dominated by a positive diagonal peak centered at ∼15000 cm –1 , easily attributed to ground state bleaching (GSB) and stimulated emission (SE) of the resonant Q y transition.…”

supporting

confidence: 68%

Biomimetic Nanoarchitectures for Light Harvesting: Self-Assembly of Pyropheophorbide-Peptide Conjugates

Meneghin

Biscaglia

Volpato

et al. 2020

J. Phys. Chem. Lett.

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The biological light-harvesting process offers an unlimited source of inspiration. The high level of control, adaptation capability, and efficiency challenge humankind to create artificial biomimicking nanoarchitectures with the same performances to respond to our energy needs. Here, in the extensive search for design principles at the base of efficient artificial light harvesters, an approach based on self-assembly of pigment-peptide conjugates is proposed. The solvent-driven and controlled aggregation of the peptide moieties promotes the formation of a dense network of interacting pigments, giving rise to an excitonic network characterized by intense and spectrally wide absorption bands. The ultrafast dynamics of the nanosystems studied through two-dimensional electronic spectroscopy reveals that the excitation energy is funneled in an ultrafast time range (hundreds of femtoseconds) to a manifold of long-living dark states, thus suggesting the considerable potentiality of the systems as efficient harvesters.

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supporting

confidence: 68%

Biomimetic Nanoarchitectures for Light Harvesting: Self-Assembly of Pyropheophorbide-Peptide Conjugates

Meneghin

Biscaglia

Volpato

et al. 2020

J. Phys. Chem. Lett.

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“…Indeed, spectroscopic studies of PPCs at low temperatures 11 – 14 reveal the presence of vibrational environments that consist of a broad spectrum of low-frequency protein modes with room temperature energy scales, and several tens of discrete high-frequency modes that originate mainly from intra-pigment dynamics 11 , 12 , 15 . Nonlinear optical experiments on monomer pigments in solution at both 77 K 16 , 17 and room temperature 18 , 19 , as well as first-principles calculations 20 , 21 further corroborate the underdamped nature of intra-pigment vibrational modes with picosecond lifetimes.…”

Section: Introductionmentioning

confidence: 56%

Exact simulation of pigment-protein complexes unveils vibronic renormalization of electronic parameters in ultrafast spectroscopy

et al. 2022

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The primary steps of photosynthesis rely on the generation, transport, and trapping of excitons in pigment-protein complexes (PPCs). Generically, PPCs possess highly structured vibrational spectra, combining many discrete intra-pigment modes and a quasi-continuous of protein modes, with vibrational and electronic couplings of comparable strength. The intricacy of the resulting vibronic dynamics poses significant challenges in establishing a quantitative connection between spectroscopic data and underlying microscopic models. Here we show how to address this challenge using numerically exact simulation methods by considering two model systems, namely the water-soluble chlorophyll-binding protein of cauliflower and the special pair of bacterial reaction centers. We demonstrate that the inclusion of the full multi-mode vibronic dynamics in numerical calculations of linear spectra leads to systematic and quantitatively significant corrections to electronic parameter estimation. These multi-mode vibronic effects are shown to be relevant in the longstanding discussion regarding the origin of long-lived oscillations in multidimensional nonlinear spectra.

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“…Firstly, the choice of different ǫ for the AP and DC data is motivated by the different SNRs in the two experiments. DC experiments have lower noise [25], but also detect smaller signals resulting in a lower SNR compared to the AP experiments. Indeed, MISC ǫ for varying ǫ for the DC pulse sequence helps reveal the noise floor in the data, providing ǫ its physical interpretation (See Appendix F).…”

Section: Miscǫ For Simulated and Experimental Nonlinear Spectroscopy ...mentioning

confidence: 96%

Model-Independent Simulation Complexity of Complex Quantum Dynamics

et al. 2021

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Revealing vibronic coupling in chlorophyll c1 by polarization-controlled 2D electronic spectroscopy

Cited by 22 publications

References 35 publications

Biomimetic Nanoarchitectures for Light Harvesting: Self-Assembly of Pyropheophorbide-Peptide Conjugates

Biomimetic Nanoarchitectures for Light Harvesting: Self-Assembly of Pyropheophorbide-Peptide Conjugates

Exact simulation of pigment-protein complexes unveils vibronic renormalization of electronic parameters in ultrafast spectroscopy

Model-Independent Simulation Complexity of Complex Quantum Dynamics

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