STEREOELECTRONIC PROPERTIES OF PHOTOSYNTHETIC AND RELATED SYSTEMS—IX. AB INITIO QUANTUM MECHANICAL CHARACTERIZATION OF THE ELECTRONIC STRUCTURE AND SPECTRUM OF THE BACTERIOCHLOROPHYLLIDE a ANION RADICAL |
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Authors: | J. D. Petke Gerald M. Maggiora Lester L. Sipman Ralph E. Christoffersen |
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Affiliation: | Departments of Chemistry and Biochemistry, University of Kansas, Lawrence, KS 66045;Chemistry Division, Argonne National Laboratory, Argonne, IL 60439, USA |
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Abstract: | Abstract— Ab initio configuration interaction wavefunctions and energies are reported for 19 doublet states of the anion radical of ethyl bacteriochlorophyllide a (Et-BChl a˙), and are employed in a resolution of the electronic absorption spectrum, as well as in a comparison with a previously reported study of the electronic states and spectrum of the anion radical of ethyl bacteriopheophorbide a (Et-BPheo a˙). The lowest two excited doublet states, D1 and D2, of Et-BChl a˙ are found to be approximately degenerate and are predicted to contribute to the experimentally observed absorption at 10000 cm?1. In contrast, the D2←D0 transition in Et-BPheo a˙ is predicted to contribute to the 11000 cm?1 absorption, while the D1←D0 transition appears at approximately 8600 cm?1 with a low oscillator strength (f= 0.002). The prominent visible absorption at ~15700 cm?1 in both molecules is found to be due to the D4← D0 transition. Another difference between the predicted spectra of the two molecules appears in the low-energy shoulder of the Soret band. Here, two intense transitions, D10←D0 and D11←D0, are predicted for Et-BChl a˙, as opposed to three fairly intense transitions, D7←D0, D8←D0 and D9←D0, for Et-BPheo a˙, differences which may provide a means of distinguishing between the two molecules using resonance Raman spectroscopy. The remainder of the Soret band of Et-BChl a˙ above 26000 cm?1 consists of a number of closely-spaced transitions to states D12←D18. The intense transitions D12←D0, D13←D0, D14←D0 are predicted to contribute to the Soret maximum near 30000 cm?1. The ground state spin densities of the two molecules are similar, with the minor difference of somewhat less spin density located on the methine carbon atoms of Et-BChl a˙ compared with Et-BPheo a˙. |
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