Abstract

Well-defined relative orientations and distances between chromophores are prerequisites for high-efficiency energy transfer, which can generally be realized by regularly assembling short peptide compounds with different absorption wavelengths and luminescence positions. Herein, a series of dipeptides are designed and synthesized, where the dipeptides contain different chromophores with several absorption bands. A co-self-assembled peptide hydrogel is prepared for artificial light-harvesting systems. The photophysical properties and assembly behavior of these dipeptide-chromophore conjugates in solution and hydrogel are systematically studied. As a result of the three-dimensional (3-D) self-assembly feature, effective energy transfer between donor and acceptor in the hydrogel system is achieved. These systems exhibit high antenna effect at a high donor/acceptor ratio (2564:1), which is characterized by an increase in the fluorescence intensity. Further, multiple molecules with different absorption wavelengths can be co-assembled as energy donors in order to achieve a wide spectrum of absorption. The method allows flexible light-harvesting systems to be realized. The ratio of energy donors to acceptors can be adjusted arbitrarily, and constructive motifs can be selected based on the application.

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