Dynamic Evolving Exothermicity Steers Ultrafast Formation of a Correlated Triplet Pair State

Authors: 
Yishi Wu*, Lina Lu, Buyang Yu, San Zhang, Pengdong Luo, Mingxing Chen, Jingping He, Yongyao Li, Chunfeng Zhang*, Jun Zhu*, Jiannian Yao, Hongbing Fu*
Journal: 
J. Phys. Chem. Lett.
Year: 
2023
Volume: 
14
FirstPage-LastPage: 
4233-4240
TOC: 
Abstract: 

Singlet fission (SF) presents an attractive solution to overcome the Shockley–Queisser limit of single-junction solar cells. The conversion from an initial singlet state to final triplet is mediated by the correlated triplet pair state 1(T1T1). Despite significant advancement on 1(T1T1) properties and its role in SF, a comprehensive understanding of the energetic landscape during SF is still unclear. Here, we study an unconventional SF system with excited-state aromaticity, i.e., cyano-substituted dipyrrolonaphtheridinedione derivative (DPND-CN), using time-resolved spectroscopy as a function of the temperature. We demonstrate that the population transfer from S1 to 1(T1T1) is driven by a time-dependent exothermicity resulting from the coherent coupling between electronic and spin degrees of freedom. This is followed by thermal-activated dissociation of 1(T1T1) to yield free triplets. Our results provide some new insight into the SF mechanism, which may guide the development of new efficient and stable SF materials for practical applications.

https://pubs.acs.org/doi/10.1021/acs.jpclett.3c00193

Doi: 
10.1021/acs.jpclett.3c00193