Issue 24, 2021

Theoretical investigation of polymorph- and coformer-dependent photoluminescence in molecular crystals

Abstract

Polymorph- and coformer-dependent photoluminescence (PL) are among the variety of novel solid-state PL phenomena recently observed in many molecular crystals. They are of particular research interest due to their direct connections to two heavily investigated topics in crystal engineering: polymorphism and cocrystallization. Herein, we apply a novel computational methodology, initially proposed and successfully applied in our previous investigation of piezochromism, to theoretical modeling of the polymorph- and coformer-dependent PL in the well-known ROY polymorphs and the recently synthesized 9-acetylanthracene (9-ACA) cocrystals, respectively. Our methodology offers satisfactory prediction of the experimentally observed color zoning for the ROY polymorphs and provides good qualitative and quantitative accuracy for the emission (fluorescence) energies of the 9-ACA cocrystals, although the results in both cases may be adversely affected by delocalization error in the density-functional methods employed. While the polymorph-dependent PL in ROY is found to be controlled by the intramolecular geometry, modeling of the periodic crystal environment is necessary for accurate prediction of the coformer-dependent PL in the 9-ACA cocrystals, which is driven by charge transfer.

Graphical abstract: Theoretical investigation of polymorph- and coformer-dependent photoluminescence in molecular crystals

Supplementary files

Article information

Article type
Paper
Submitted
20 mar. 2021
Accepted
04 may. 2021
First published
18 may. 2021

CrystEngComm, 2021,23, 4264-4271

Theoretical investigation of polymorph- and coformer-dependent photoluminescence in molecular crystals

X. Feng, A. D. Becke and E. R. Johnson, CrystEngComm, 2021, 23, 4264 DOI: 10.1039/D1CE00383F

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