Self-assembled helical arrays for the stabilization of the triplet state

TitleSelf-assembled helical arrays for the stabilization of the triplet state
Publication TypeJournal Article
Year of Publication2020
AuthorsNidhankar, AD, Goudappagouda,, Kumari, DSMohana, Chaubey, SKumar, Nayak, R, Gonnade, RG, Kumar, GVPavan, Krishnan, R, Babu, SSanthosh
JournalAngewandte Chemie-International Edition
Volume59
Issue31
Pagination13079-13085
Date PublishedJUL
Type of ArticleArticle
ISSN1433-7851
Keywordscarbazole, helicity, phenylmethanone, ultralong phosphorescence, waveguiding
Abstract

Room-temperature phosphorescence of metal and heavy atom-free organic molecules has emerged as an area of great potential in recent years. A rational design played a critical role in controlling the molecular ordering to impart efficient intersystem crossing and stabilize the triplet state to achieve room-temperature ultralong phosphorescence. However, in most cases, the strategies to strengthen phosphorescence efficiency have resulted in a reduced lifetime, and the available nearly degenerate singlet-triplet energy levels impart a natural competition between delayed fluorescence and phosphorescence, with the former one having the advantage. Herein, an organic helical assembly supports the exhibition of an ultralong phosphorescence lifetime. In contrary to other molecules, 3,6-phenylmethanone functionalized 9-hexylcarbazole exhibits a remarkable improvement in phosphorescence lifetime (>4.1 s) and quantum yield (11 %) owing to an efficient molecular packing in the crystal state. A right-handed helical molecular array act as a trap and exhibits triplet exciton migration to support the exceptionally longer phosphorescence lifetime.

DOI10.1002/anie.202005105, Early Access Date = JUN 2020
Type of Journal (Indian or Foreign)

Foreign

Impact Factor (IF)

12.959

Divison category: 
Center for Material Characterization (CMC)
Organic Chemistry

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