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Title: | De novo synthesis and properties of analogues of the self-assembling chlorosomal bacteriochlorophylls |
Authors: | Mass, O. Pandithavidana, D.R. Ptaszek, M. Santiago, K. Springer, J.W. Jiao, J. Tang, Q. Kirmaier, C. Bocian, D. Holten, D. Lindsey, J.S. |
Issue Date: | 2011 |
Publisher: | New Journal of Chemistry |
Abstract: | Natural photosynthetic pigments bacteriochlorophyllsc, d and e in green bacteria undergo self-assembly to create an organized antenna system known as the chlorosome, which collects photons and funnels the resulting excitation energy toward the reaction centers. Mimicry of chlorosome function is a central problem in supramolecular chemistry and artificial photosynthesis, and may have relevance for the design of photosynthesis-inspired solar cells. The main challenge in preparing artificial chlorosomes remains the synthesis of the appropriate pigment (chlorin) equipped with a set of functional groups suitable to direct the assembly and assure efficient energy transfer. Prior approaches have entailed derivatization of porphyrins or semisynthesis beginning with chlorophylls. This paper reports a third approach, the de novo synthesis of macrocycles that contain the same hydrocarbon skeleton as chlorosomal bacteriochlorophylls. The synthesis here of Zn(II) 3-(1-hydroxyethyl)-10-aryl-131-oxophorbines (the aryl group consists of phenyl, mesityl, or pentafluorophenyl) entails selective bromination of a 3,13-diacetyl-10-arylchlorin, palladium-catalyzed 131-oxophorbine formation, and selective reduction of the 3-acetyl group using BH3�tBuNH2. Each macrocycle contains a geminal dimethyl group in the pyrroline ring to provide stability toward adventitious dehydrogenation. A Zn(II) 7-(1-hydroxyethyl)-10-phenyl-17-oxochlorin also has been prepared. Altogether, 30 new hydroporphyrins were synthesized. The UV-Vis absorption spectra of the new chlorosomal bacteriochlorophyll mimics reveal a bathochromic shift of [similar]1800 cm?1 of the Qy band in nonpolar solvent, indicating extensive assembly in solution. The Zn(II) 3-(1-hydroxyethyl)-10-aryl-131-oxophorbines differ in the propensity to form assemblies based on the 10-substituent in the following order: mesityl<phenyl<pentafluorophenyl. Infrared spectra show that assemblies also can be formed in solid media and likely involve hydrogen-bonding (or other) interactions of the ring E keto group. |
URI: | http://repository.kln.ac.lk/handle/123456789/3794 |
Appears in Collections: | Chemistry |
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