期刊
ADVANCED ENERGY MATERIALS
卷 11, 期 17, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/aenm.202100158
关键词
charge separation; crystal structure; fullerene; hexabenzocoronene; porphyrin; transient absorption
类别
资金
- Deutsche ForschungsgemeinschaI (DFG) [182849149-SFB 953]
- Fonds der Chemischen Industrie (FCI)
- Graduate School Molecular Science (GSMS)
- IBS [IBS-R026-Y1]
- Erlangen Regional Computing Center (RRZE)
- Projekt DEAL
The study investigates multifunctional molecular materials based on HBCs, decorated with different numbers of porphyrins to mimic key steps of natural photosynthesis. Using a range of spectroscopic methods and density functional theory calculations, the research examines inter(porphyrin) communications and intermolecular forces with fullerenes.
Multifunctional molecular materials comprising porphyrins and fullerenes have served as perfect prototypes to study key aspects of natural photosynthesis starting at light harvesting and energy transfer processes all the way to charge separation, charge shift, and charge recombination. Herein, hexa-peri-hexabenzocoronenes (HBCs) are explored, decorated with one, two, and six porphyrins at their peripheral positions, within the context of replicating key steps of photosynthesis. The major focus of the investigations is to screen inter(porphyrin) communications across the HBC platform as a function of the substitution pattern and to optimize the intermolecular forces with fullerenes. To this end, the ground- and excited-state features are investigated in the absence of C-60 and C-70 by employing an arsenal of spectroscopic methods. Further insights into inter(porphyrin) communications come from time-dependent density-functional theory (TDDFT) calculations. In the presence of C-60 and C-70, X-ray crystallography, steady-state and time-resolved spectroscopy, and mass spectrometry corroborate exceptionally strong inter(porphyrin-fullerene) interactions in the solid, liquid, and gas phases. The experiments are backed-up with DFT calculations of the geometrically optimized and energetically stable complex configuration.
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