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July 15, 2026
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Controlling Charge Carrier Dynamics in Porphyrin Nanorings by Optically Active Templates

The Journal of Physical Chemistry Letters. 2023. Vol. 14. No. 50. P. 11384–11392.
Mondal S., Chowdhury U., Dey S., Habib M., Perez C. M., Frauenheim T., Sarkar R., Pal S., Prezhdo O.

Understanding the dynamics of photogenerated charge carriers is essential for enhancing the performance of solar and optoelectronic devices. Using atomistic quantum dynamics simulations, we demonstrate that a short π-conjugated optically active template can be used to control hot carrier relaxation, charge carrier separation, and carrier recombination in light-harvesting porphyrin nanorings. Relaxation of hot holes is slowed by 60% with an optically active template compared to that with an analogous optically inactive template. Both systems exhibit subpicosecond electron transfer from the photoactive core to the templates. Notably, charge recombination is suppressed 6-fold by the optically active template. The atomistic time-domain simulations rationalize these effects by the extent of electron and hole localization, modification of the density of states, participation of distinct vibrational motions, and changes in quantum coherence. Extension of the hot carrier lifetime and reduction of charge carrier recombination, without hampering charge separation, demonstrate a strategy for enhancing efficiencies of energy materials with optically active templates.

Language: English
DOI
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Keywords: nonadiabatic molecular dynamics (NAMD)optically active
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