Metal complex-based TADF: design, characterization, and lighting devices
The development of novel, efficient and cost-effective emitters for solid-state lighting devices
(SSLDs) is ubiquitous to meet the increasingly demanding needs of advanced lighting …
(SSLDs) is ubiquitous to meet the increasingly demanding needs of advanced lighting …
Emerging hyperfluorescent emitters for solid-state lighting
Organic light-emitting diodes (OLEDs) are of high interest for display, biomedical, and solid-
state lighting applications. However, costs and color purity are still issues with the OLED …
state lighting applications. However, costs and color purity are still issues with the OLED …
Electrochemical self-do** in intrinsically ionic, thermally activated delayed fluorescence materials enables high-performance light-emitting electrochemical cells
K Zhang, Y Song, Y ** transparent and highly refractive environmentally friendly polymers has not
been realized yet toward sustainable optoelectronics. This work describes poly (thiourea) s …
been realized yet toward sustainable optoelectronics. This work describes poly (thiourea) s …
Thermally Activated Delayed Fluorescent Emitters Based on Cyanobenzene Exhibiting Fast Reverse Intersystem Crossing to Suppress the Efficiency Roll-Off
Y Wang, T Yang, S Dong, S Zhao, W Dong… - ACS Materials …, 2024 - ACS Publications
Thermally activated delayed fluorescent (TADF) materials exhibiting the fast reverse
intersystem crossing (RISC) process are essential for improving the stability of organic light …
intersystem crossing (RISC) process are essential for improving the stability of organic light …
Blue‐Emitting Boron‐and Nitrogen‐Doped Carbon Dots for White Light‐Emitting Electrochemical Cells
This work describes the first use of blue‐emitting boron‐and nitrogen‐doped carbon dots
(BN‐CDs), rationalizing their photoluminescence behavior in solution and ion‐based thin …
(BN‐CDs), rationalizing their photoluminescence behavior in solution and ion‐based thin …