Exciplexes in OLEDs: Principles and promises
Science has always been full of surprises, and organic light-emitting diodes (OLEDs) are no
exception. What exasperates scientists today may entice society tomorrow. The world has …
exception. What exasperates scientists today may entice society tomorrow. The world has …
Near-infrared organic light-emitting materials, devices and applications
Near-infrared (NIR) light-emitting devices have recently garnered significant interest for
integration in various applications, including photodynamic therapy and component …
integration in various applications, including photodynamic therapy and component …
Luminescent Bimetallic Two-Coordinate Gold (I) Complexes Utilizing Janus Carbenes
A series of bimetallic carbene-metal-amide (cMa) complexes have been prepared with
bridging biscarbene ligands to serve as a model for the design of luminescent materials with …
bridging biscarbene ligands to serve as a model for the design of luminescent materials with …
Recent advances in highly-efficient near infrared OLED emitters
Near infrared (NIR) light (700–1400 nm) can be used in numerous biological/medical as
well as technological applications. In this work we review the most recent examples of highly …
well as technological applications. In this work we review the most recent examples of highly …
The role of dinuclearity in promoting thermally activated delayed fluorescence (TADF) in cyclometallated, N^ C^ N-coordinated platinum (ii) complexes
We present the synthesis and in-depth photophysical analysis of a di-Pt (II) complex with a
ditopic bis-N^ C^ N ligand. The complex exhibits a dual luminescent behaviour by emitting …
ditopic bis-N^ C^ N ligand. The complex exhibits a dual luminescent behaviour by emitting …
Thermally activated delayed fluorescence in a deep red dinuclear iridium (iii) complex: a hidden mechanism for short luminescence lifetimes
The high luminescence efficiency of cyclometallated iridium (III) complexes, including those
widely used in OLEDs, is typically attributed solely to the formally spin-forbidden …
widely used in OLEDs, is typically attributed solely to the formally spin-forbidden …
Recent progress in near-infrared organic electroluminescent materials
J Zhang, H Ye, Y Jin, D Han - Topics in Current Chemistry, 2022 - Springer
Near-infrared (NIR) refers to the section of the spectrum from 650 to 2500 nm. NIR
luminescent materials are widely employed in organic light-emitting diodes (OLEDs), fiber …
luminescent materials are widely employed in organic light-emitting diodes (OLEDs), fiber …
Deep Blue Phosphorescence from Platinum Complexes Featuring Cyclometalated N-Pyridyl Carbazole Ligands with Monocarborane Clusters (CB11H12–)
Y Shen, X Kong, F Yang, HD Bian, G Cheng… - Inorganic …, 2022 - ACS Publications
The utilization of deep blue phosphorescent materials in high-performance displays and
solid-state lighting requires high quantum efficiencies and color purities. Here, we describe …
solid-state lighting requires high quantum efficiencies and color purities. Here, we describe …
Highly Emissive Red Heterobimetallic IrIII/MI (MI = CuI and AuI) Complexes for Efficient Light-Emitting Electrochemical Cells
A Bonfiglio, PW Hsiao, Y Chen… - Chemistry of …, 2022 - ACS Publications
A class of four bright heterobimetallic emitters is presented, which features both a
chromophoric [Ir (C^ N) 2] center and a positively charged, linear bis-NHC M (I) ancillary …
chromophoric [Ir (C^ N) 2] center and a positively charged, linear bis-NHC M (I) ancillary …
Rigidly linked dinuclear platinum (ii) complexes showing intense, excimer-like, near-infrared luminescence
Many luminescent platinum (II) complexes undergo face-to-face interactions between
neighbouring molecules, leading to bimolecular excited states that may emit at lower energy …
neighbouring molecules, leading to bimolecular excited states that may emit at lower energy …