Issue 50, 2018, Issue in Progress

Thermally activated delayed fluorescence processes for Cu(i) complexes in solid-state: a computational study using quantitative prediction

Abstract

The photophysical properties of four representative Cu(I) complex crystals have been investigated using the combination of an optimally tuned one- and two-dimensional range-separated hybrid functional Image ID:c8ra04978e-t1.gif with the polarizable continuum model, and the thermal vibration correlation function (TVCF) approach. The calculated excited singlet–triplet energy gap, radiative rates and lifetimes match the experimentally available data perfectly. At 300 K, the reverse intersystem crossing (RISC) proceeds at a rate of kdir.RISC ≈ 106–8 s−1, which is 4–5 orders of magnitude larger than the mean phosphorescence rate, kP ≈ 102–3 s−1. At the same time, the ISC rate kdir.ISC ≈ 109 s−1 is again 2 orders of magnitude larger than the fluorescence rate kF ≈ 107 s−1. In the case of kdir.RISCkF and kdir.RISCkP, thermally activated delayed fluorescence should occur. Vibronic spin–orbit coupling can remarkably enhance the ISC rates by the vital “promoting” modes, which can provide crucial pathways to decay. This can be helpful for designing novel excellent TADF Cu(I) complex materials.

Graphical abstract: Thermally activated delayed fluorescence processes for Cu(i) complexes in solid-state: a computational study using quantitative prediction

Supplementary files

Article information

Article type
Paper
Submitted
11 Jun 2018
Accepted
20 Jul 2018
First published
09 Aug 2018
This article is Open Access
Creative Commons BY license

RSC Adv., 2018,8, 28421-28432

Thermally activated delayed fluorescence processes for Cu(I) complexes in solid-state: a computational study using quantitative prediction

L. Lv, K. Liu, K. Yuan, Y. Zhu and Y. Wang, RSC Adv., 2018, 8, 28421 DOI: 10.1039/C8RA04978E

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