1. Rational design and performance prediction of organic photosensitizer based on TATA+ dye for hydrogen production by photocatalytic decomposition of water.
- Author
-
Yuening Yu, Zhenqing Yang, Yuhong Xia, Yuzhuo Lv, Wansong Zhang, Chundan Lin, Changjin Shao, and Chunhui Dai
- Subjects
PHOTOSENSITIZERS ,HYDROGEN production ,PHOTOCATALYSIS ,SOLAR energy ,CHARGE exchange - Abstract
In comparison to metal complexes, organic photosensitive dyes employed in photocatalytic hydrogen production exhibit promising developmental prospects. Utilizing the organic dye molecule TA+0 as the foundational structure, a series of innovative organic dyes, denoted as TA1-1 to TA2-6, were systematically designed. Employing first-principles calculations, we methodically explored the modifying effects of diverse electron-donating groups on the R1 and R2 positions to assess their application potential. Our findings reveal that, relative to the experimentally synthesized TATA+03, the TA2-6 molecule boasts a spatial structure conducive to intramolecular electron transfer, showcasing the most negative reduction potential (E
red = -2.11 eV) and the maximum reaction driving force (ΔG0 2 = -1.26 eV). This configuration enhances its compatibility with the reduction catalyst, thereby facilitating efficient hydrogen evolution. The TA2-6 dye demonstrates outstanding photophysical properties and a robust solar energy capture capacity. Its maximum molar extinction coefficient (ε) stands at 2.616 x 104 M-1 ·cm-1 , representing a remarkable 292.8% improvement over TATA+03. In conclusion, this research underscores the promising potential of the TA2-6 dye as an innovative organic photosensitizer, positioning it as an efficacious component in homogeneous photocatalytic systems. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF