Issue 21, 2015

Stable and color tunable emission properties based on non-cyclometalated gold(iii) complexes

Abstract

Stable and emission tunable non-cyclometalated gold(III) triaryl complexes of the type [(L)Au(C6F5)3] [L = 2-(2,4-difluorophenylpyridine) (1), 4-phenylpyridine (2), 2-phenylpyridine (3), 2-phenylisoquinoline (4), 2-thienylpyridine (5)] were synthesized starting from a common precursor complex [(THT)Au(C6F5)3] [THT = tetrahydrothiophene] in good to modest yields. Extensive characterization of the complexes by various nuclear magnetic resonance spectroscopy techniques and elemental analysis further corroborated the single-crystal X-ray diffraction studies. The complexes displayed room temperature phosphorescence in the neat solid and in 2-MeTHF at 77 K. Detailed photophysical investigations of the complexes in the neat solid and at 77 K revealed the successful tuning of the emission maxima with modest quantum yields across the visible part of the electromagnetic spectrum depending on the electronic properties of the heterocyclic ligands. DFT (Density Functional Theory) and TDDFT (Time Dependent Density Functional Theory) calculations were performed to discern the composition of the excited state as well as confirm the obtained relative emission energies upon substitution with electronically different ligands. The obtained diverse emissive behavior of the complexes combined with the ease of synthesis illustrate the generality and applicability of the design approach to obtain emissive gold(III) complexes devoid of cyclometalation.

Graphical abstract: Stable and color tunable emission properties based on non-cyclometalated gold(iii) complexes

Supplementary files

Article information

Article type
Paper
Submitted
28 Jan 2015
Accepted
21 Apr 2015
First published
21 Apr 2015
This article is Open Access
Creative Commons BY-NC license

Dalton Trans., 2015,44, 10003-10013

Stable and color tunable emission properties based on non-cyclometalated gold(III) complexes

M. Bachmann, O. Blacque and K. Venkatesan, Dalton Trans., 2015, 44, 10003 DOI: 10.1039/C5DT00405E

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