Abstract
A weak absorption tail related to the Qy singlet electronic transition of solvated chlorophyll a is discovered using sensitive anti-Stokes fluorescence excitation spectroscopy. The quasi-exponentially decreasing tail was, at ambient temperature, readily observable as far as −2400 cm−1 from the absorption peak and at relative intensity of 10−7. The tail also weakened rapidly upon cooling the sample, implying its basic thermally activated nature. The shape of the spectrum as well as its temperature dependence were qualitatively well reproduced by quantum chemical calculations involving the pigment intramolecular vibrational modes, their overtones, and pairwise combination modes, but no intermolecular/solvent modes. A similar tail was observed earlier in the case of bacteriochlorophyll a, suggesting generality of this phenomenon. Long vibronic red tails are, thus, expected to exist in all pigments of light-harvesting relevance at physiological temperatures.
Highlights
Chlorophylls are the most abundantly found pigments on Earth, facilitating the important functions of absorbing solar energy and electron transport in photosynthetic organisms such as plants, algae, and bacteria
The results obtained for the lowest singlet excited electronic state Qy of chlorophyll a (Chl a) [14,15], bacteriochlorophyll a (BChl a) [16], and pheophytin a [17]
Similar general dependence was formerly observed for BChl a [30]
Summary
Chlorophylls are the most abundantly found pigments on Earth, facilitating the important functions of absorbing solar energy and electron transport in photosynthetic organisms such as plants, algae, and bacteria. The distinct role of these molecules in the utmost processes of nature relies on their unique optical and redox properties. It is, expected that every aspect of their optical spectra is already thoroughly studied. The results obtained for the lowest singlet excited electronic state Qy of chlorophyll a (Chl a) [14,15], bacteriochlorophyll a (BChl a) [16], and pheophytin a [17]
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