Extended-Charge-Transfer Excitons in Crystalline Supramolecular Photocatalytic Scaffolds

激子 化学 发色团 化学物理 分子间力 J-骨料 超分子化学 人工光合作用 电子转移 分子内力 光催化 光化学 分子 凝聚态物理 结晶学 物理 晶体结构 立体化学 催化作用 生物化学 有机化学
作者
Nicholas J. Hestand,Roman V. Kazantsev,Adam Weingarten,Liam C. Palmer,Samuel I. Stupp,Frank C. Spano
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:138 (36): 11762-11774 被引量:121
标识
DOI:10.1021/jacs.6b05673
摘要

Coupling among chromophores in molecular assemblies is responsible for phenomena such as resonant energy transfer and intermolecular charge transfer. These processes are central to the fields of organic photovoltaics and photocatalysis, where it is necessary to funnel energy or charge to specific regions within the system. As such, a fundamental understanding of these transport processes is essential for developing new materials for photovoltaic and photocatalytic applications. Recently, photocatalytic systems based on photosensitizing perylene monomimide (PMI) chromophore amphiphiles were found to show variation in hydrogen gas (H2) production as a function of nanostructure crystallinity. The 2D crystalline systems form in aqueous electrolyte solution, which provides a high dielectric environment where the Coulomb potential between charges is mitigated. This results in relatively weakly bound excitons that are ideal for reducing protons. In order to understand how variations in crystalline structure affect H2 generation, two representative PMI systems are investigated theoretically using a modified Holstein Hamiltonian. The Hamiltonian includes both molecular Frenkel excitations (FE) and charge-transfer excitations (CTE) coupled nonadiabatically to local intramolecular vibrations. Signatures of FE/CTE mixing and the extent of electron/hole separation are identified in the optical absorption spectrum and are found to correlate strongly to the observed H2 production rates. The absorption spectral signatures are found to sensitively depend on the relative phase between the electron and hole transfer integrals, as well as the diabatic energy difference between the Frenkel and CT exciton bands. Our analysis provides design rules for artificial photosynthetic systems based on organic chromophore arrays.
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