Biomimetic light-harvesting antennas via the self-assembly of chemically programmed chlorophylls
Abstract
The photosynthetic pigment “chlorophyll” possesses attractive photophysical properties, including efficient sunlight absorption, photoexcited energy transfer, and charge separation, which are advantageous for applications for photo- and electro-functional materials such as artificial photosynthesis and solar cells. However, these functions cannot be realized by individual chlorophyll molecules alone; rather, they are achieved by the formation of sophisticated supramolecules through the self-assembly of the pigments. Here, we present strategies for constructing and developing artificial light-harvesting systems by mimicking photosynthetic antenna complexes through the highly ordered supramolecular self-assembly of synthetic dyes, particularly chlorophyll derivatives.
- This article is part of the themed collections: Chemical Communications HOT Articles 2024 and 2024 Emerging Investigators