Using a dual inducing layer is a novel strategy for growing high-quality crystalline thin films via weak epitaxy growth. This work shows that a designed dual inducing layer can address critical hole injection challenges in crystalline OLEDs.
Organic solid solution is a novel advantageous strategy for developing crystalline OLEDs. This work demonstrated its universality and extended the scope of material systems.
Using ultraviolet photoelectron spectroscopy to determine interfacial energy levels between the crystalline light-emitting layer and the amorphous electron transport layer the efficiency of crystalline organic light-emitting diodes can be improved.
This study presents a cross-linked bisphenol A propoxylate diglycidyl ether network (BP17) synthesised via a dynamic transesterification reaction.
Calcium-exchanged zeolite was used as a carrier for new bisphosphonates. Selected compounds showed sustained release and low cytotoxicity, suggesting therapeutic potential.