Designing of thermally activated delayed fluorescence (TADF) compounds with short TADF
decay time and high emission quantum yield is a challenge. This chapter introduces …

Applying femto-second time-resolved spectroscopy, we study intersystem crossing times τ
(ISC) of two Cu (I) dimers, Cu 2 Cl 2 (dppb) 2 1 (dppb= 1, 2-bis-diphenylphosphino) …

With the chelating aminophosphane ligands Ph2P-(o-C6H4)-N (CH3) 2 (PNMe2) and Ph2P-
(o-C6H4)-NC4H8 (PNpy), the four halide (Cl, Br, I)-bridged copper coordination compounds …

Neutral Cu (I) and Ag (I) complexes with a new rigid tridentate N, P, P ligand (dmpzpp, 3, 5-
dimethyl-1-(2-((2-(di-o-tolyl) phosphanyl)(o-tolyl)-phosphanyl) phenyl)-1 H-pyrazole), giving …

The increasing demand for electrical energy by a longer living and increasing population
justifies the search for new, more efficient lighting systems. In this context, organo-metallic …

The four new Ag (I) complexes Ag (phen)(P2-nCB)(1), Ag (idmp)(P2-nCB)(2), Ag (dmp)(P2-
nCB)(3), and Ag (dbp)(P2-nCB)(4) with P2-nCB= bis (diphenylphosphine)-nido-carborane …

A design strategy for the development of Ag (I)-based materials for thermally activated
delayed fluorescence (TADF) is presented. Although Ag (I) complexes usually do not show …

Thermally activated delayed fluorescence (TADF) is an emerging hot topic. Even though this
photophysical mechanism itself has been described more than 50 years ago and …

This chapter presents the photophysical properties and synthesis of the archetypal
complexes suitable for the applications of iridium (Ir) complexes. Ir (III) complexes bearing …

This section covers both metal–organic and organic materials that feature thermally
activated delayed fluorescence (TADF). Such materials are especially useful for organic light …