Alkyl chain functionalised Ir(iii) complexes: synthesis, properties and behaviour as emissive dopants in microemulsions

Emily C Stokes; Ibrahim O Shoetan; Alice M Gillman; Peter N Horton; Simon J Coles; Simon E Woodbury; Ian A Fallis; Simon J A Pope

doi:10.1039/d3ra06764e

Alkyl chain functionalised Ir(iii) complexes: synthesis, properties and behaviour as emissive dopants in microemulsions

RSC Adv. 2024 Feb 27;14(10):6987-6997. doi: 10.1039/d3ra06764e. eCollection 2024 Feb 21.

Authors

Emily C Stokes¹, Ibrahim O Shoetan¹, Alice M Gillman¹, Peter N Horton², Simon J Coles², Simon E Woodbury³, Ian A Fallis¹, Simon J A Pope¹

Affiliations

¹ School of Chemistry, Cardiff University Main Building Cardiff CF10 3AT UK popesj@cardiff.ac.uk.
² Chemistry, UK National Crystallographic Service, Faculty of Natural and Environmental Sciences, University of Southampton Highfield Southampton SO17 1BJ England UK.
³ National Nuclear Laboratory, Central Laboratory Sellafield, Seascale Cumbria CA20 1PG UK.

Abstract

Six iridium(iii) complexes of the general form [Ir(C^N)₂(N^N)]X (where C^N = cyclometalating ligand; N^N = disubstituted 2,2'-bipyridine), and incorporating alkyl chains of differing lengths (C8, C10, C12), have been synthesised and characterised. The complexes have been characterised using a variety of methods including spectroscopies (NMR, IR, UV-Vis, luminescence) and analytical techniques (high resolution mass spectrometry, cyclic voltammetry, X-ray diffraction). Two dodecyl-functionalised complexes were studied for their behaviour in aqueous solutions. Although the complexes did not possess sufficient solubility to determine their critical micelle concentrations (CMC) in water, they were amenable for use as emissive dopants in a N-methyl C12 substituted imidazolium salt microemulsion carrier system with a CMC = 36.5 mM. The investigation showed that the metal doped microemulsions had increased CMCs of 40.4 and 51.3 mM and luminescent properties characterised by the dopant.