Browsing Kjemisk institutt by Author "Buda, Francesco"

Now showing items 1-4 of 4

  • Manifestation of Hydrogen Bonding and Exciton Delocalization on the Absorption and Two-Dimensional Electronic Spectra of Chlorosomes 
    Erić, Vesna; Li, Xinmeng; Dsouza, Lolita; Frehan, Sean K.; Huijser, Annemarie; Holzwarth, Alfred R.; Buda, Francesco; Sevink, G. J. Agur; De Groot, Huub J. M.; Jansen, Thomas L. C. (Journal article / Tidsskriftartikkel / PublishedVersion; Peer reviewed, 2023)
    Chlorosomes are supramolecular aggregates that contain thousands of bacteriochlorophyll molecules. They perform the most efficient ultrafast excitation energy transfer of all natural light-harvesting complexes. Their broad ...
  • Photon Energy-Dependent Ultrafast Exciton Transfer in Chlorosomes of Chlorobium tepidum and the Role of Supramolecular Dynamics 
    Frehan, Sean K.; Dsouza, Lolita; Li, Xinmeng; Eríc, Vesna; Jansen, Thomas L. C.; Mul, Guido; Holzwarth, Alfred R.; Buda, Francesco; Sevink, G. J. Agur; de Groot, Huub J. M.; Huijser, Annemarie (Journal article / Tidsskriftartikkel / PublishedVersion; Peer reviewed, 2023)
    The antenna complex of green sulfur bacteria, the chlorosome, is one of the most efficient supramolecular systems for efficient long-range exciton transfer in nature. Femtosecond transient absorption experiments provide ...
  • The role of chirality and plastic crystallinity in the optical and mechanical properties of chlorosomes 
    Li, Xinmeng; Buda, Francesco; de Groot, Huub; Sevink, G.J.Agur (Journal article / Tidsskriftartikkel / PublishedVersion; Peer reviewed, 2022)
    The most efficient light-harvesting antennae found in nature, chlorosomes, are molecular tubular aggregates (TMAs) assembled by pigments without protein scaffolds. Here, we discuss a classification of chlorosomes as a ...
  • Ultrafast Anisotropy Decay Reveals Structure and Energy Transfer in Supramolecular Aggregates 
    Erić, Vesna; Castro, Jorge Luis; Li, Xinmeng; Dsouza, Lolita; Frehan, Sean K.; Huijser, Annemarie; Holzwarth, Alfred R.; Buda, Francesco; Sevink, G. J. Agur; de Groot, Huub J. M.; Jansen, Thomas L. C. (Journal article / Tidsskriftartikkel / PublishedVersion; Peer reviewed, 2023)
    Chlorosomes from green bacteria perform the most efficient light capture and energy transfer, as observed among natural light-harvesting antennae. Hence, their unique functional properties inspire developments in artificial ...