Issue 43, 2022

Triplet transfer from PbS quantum dots to tetracene ligands: is faster always better?

Abstract

Quantum dot-organic semiconductor hybrid materials are gaining increasing attention as spin mixers for applications ranging from solar harvesting to spin memories. Triplet energy transfer between the inorganic quantum dot (QD) and organic semiconductor is a key step to understand in order to develop these applications. Here we report on the triplet energy transfer from PbS QDs to four energetically and structurally similar tetracene ligands. Even with similar ligands we find that the triplet energy transfer dynamics can vary significantly. For TIPS-tetracene derivatives with carboxylic acid, acetic acid and methanethiol anchoring groups on the short pro-cata side we find that triplet transfer occurs through a stepwise process, mediated via a surface state, whereas for monosubstituted TIPS-tetracene derivative 5-(4-benzoic acid)-12-triisopropylsilylethynyl tetracene (BAT) triplet transfer occurs directly, albeit slower, via a Dexter exchange mechanism. Even though triplet transfer is slower with BAT the overall yield is greater, as determined from upconverted emission using rubrene emitters. This work highlights that the surface-mediated transfer mechanism is plagued with parasitic loss pathways and that materials with direct Dexter-like triplet transfer are preferred for high-efficiency applications.

Graphical abstract: Triplet transfer from PbS quantum dots to tetracene ligands: is faster always better?

Supplementary files

Article information

Article type
Paper
Submitted
17 avq 2022
Accepted
28 sen 2022
First published
11 okt 2022
This article is Open Access
Creative Commons BY license

J. Mater. Chem. C, 2022,10, 16321-16329

Triplet transfer from PbS quantum dots to tetracene ligands: is faster always better?

V. Gray, W. Drake, J. R. Allardice, Z. Zhang, J. Xiao, D. G. Congrave, J. Royakkers, W. Zeng, S. Dowland, N. C. Greenham, H. Bronstein, J. E. Anthony and A. Rao, J. Mater. Chem. C, 2022, 10, 16321 DOI: 10.1039/D2TC03470K

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