Cu (I) complexes–Thermally activated delayed fluorescence. Photophysical approach and material design
Cu (I) complexes often show transitions of distinct metal-to-ligand charge transfer (MLCT)
character. This can lead to small energy separations between the lowest singlet S 1 and …
character. This can lead to small energy separations between the lowest singlet S 1 and …
TADF Material Design: Photophysical Background and Case Studies Focusing on Cu(I) and Ag(I) Complexesa
Designing of thermally activated delayed fluorescence (TADF) compounds with short TADF
decay time and high emission quantum yield is a challenge. This chapter introduces …
decay time and high emission quantum yield is a challenge. This chapter introduces …
Status and challenges of blue OLEDs: A review
Organic light-emitting diodes (OLEDs) have outperformed conventional display technologies
in smartphones, smartwatches, tablets, and televisions while gradually growing to cover a …
in smartphones, smartwatches, tablets, and televisions while gradually growing to cover a …
Thermally activated delayed fluorescence from Ag (I) complexes: a route to 100% quantum yield at unprecedentedly short decay time
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 …
nCB)(3), and Ag (dbp)(P2-nCB)(4) with P2-nCB= bis (diphenylphosphine)-nido-carborane …
Cuprophilic interactions in highly luminescent dicopper (I)–NHC–picolyl complexes–fast phosphorescence or TADF?
J Nitsch, F Lacemon, A Lorbach, A Eichhorn… - Chemical …, 2016 - pubs.rsc.org
This case study on a series of monomeric, dimeric and polymeric CuI chlorido NHC–picolyl
complexes shows that cuprophilic interactions can ensure strong spin–orbit coupling for fast …
complexes shows that cuprophilic interactions can ensure strong spin–orbit coupling for fast …
Design strategy for Ag (I)-based thermally activated delayed fluorescence reaching an efficiency breakthrough
MZ Shafikov, AF Suleymanova… - Chemistry of …, 2017 - ACS Publications
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 …
delayed fluorescence (TADF) is presented. Although Ag (I) complexes usually do not show …
Metal complex based delayed fluorescence materials
This review mainly focuses on the topics related to metal complex based delayed
fluorescence (DF) materials including their molecular design principle, photophysical …
fluorescence (DF) materials including their molecular design principle, photophysical …
Crystalline metal‐organic materials with thermally activated delayed fluorescence
Z Han, XY Dong, SQ Zang - Advanced Optical Materials, 2021 - Wiley Online Library
Thermally activated delayed fluorescence (TADF) properties of crystalline metal‐organic
materials, mainly including small‐molecule metal–organic complexes, organic ligand …
materials, mainly including small‐molecule metal–organic complexes, organic ligand …
Dinuclear Ag (I) complex designed for highly efficient thermally activated delayed fluorescence
MZ Shafikov, AF Suleymanova… - The Journal of …, 2018 - ACS Publications
The dinuclear Ag (I) complex has been designed to show thermally activated delayed
fluorescence (TADF) of high efficiency. Strongly electron-donating terminal ligands are …
fluorescence (TADF) of high efficiency. Strongly electron-donating terminal ligands are …
A strongly greenish-blue-emitting Cu 4 Cl 4 cluster with an efficient spin–orbit coupling (SOC): Fast phosphorescence versus thermally activated delayed fluorescence
XL Chen, R Yu, XY Wu, D Liang, JH Jia… - Chemical …, 2016 - pubs.rsc.org
In this communication, we report a new greenish-blue-emitting Cu (I) complex, Cu4Cl4 (NP)
2, a with high photoluminescence quantum yield of 90% and a short decay time of 9.9 μs …
2, a with high photoluminescence quantum yield of 90% and a short decay time of 9.9 μs …