Non-orthogonal Configuration Interaction Study on the Effect of Thermal Distortions on the Singlet Fission Process in Photoexcited Pure and B,N-Doped Pentacene Crystals

Abstract: The present computational work analyzes singlet fission (SF) as a pathway for multiplication of photogenerated excitons in crystalline polyacenes. Our study explores the wellknown crystalline pentacene (C 22 H 14 ) and the prospective and potentially interesting doped B,N-pentacene (BC 20 NH 14 ). At the molecular level, the singlet fission process involves a pair of neighboring molecules and is based on the coupling between an excited singlet state (S 1 S 0 ) and two singlet-coupled triplets ( 1 T 1 T 1 ), wh… Show more

“…Pentacene has gained a lot of attention due to its potential to participate in multiple exciton generation and singlet fission [41,91,[148][149][150] as well as being a popular acceptor in polymerbased heterojunction solar cells [45,[151][152][153][154]. The excitedstate dynamics in pentacene have been extensively studied both experimentally [155][156][157][158] and computationally [41,91,[159][160][161] due to its potential to surpass the Shockley-Queisser [43,162] limit of solar energy conversion efficiency.…”

Nonadiabatic molecular dynamics with subsystem density functional theory: application to crystalline pentacene

“…Pentacene has gained a lot of attention due to its potential to participate in multiple exciton generation and singlet fission [41,91,[148][149][150] as well as being a popular acceptor in polymerbased heterojunction solar cells [45,[151][152][153][154]. The excitedstate dynamics in pentacene have been extensively studied both experimentally [155][156][157][158] and computationally [41,91,[159][160][161] due to its potential to surpass the Shockley-Queisser [43,162] limit of solar energy conversion efficiency.…”

Nonadiabatic molecular dynamics with subsystem density functional theory: application to crystalline pentacene