Abstract: The present disclosure relates to an electron transport material and an application thereof. According to the electron transport material, a structure of a molecular is designed and selected to be constructed by a group having a high carrier mobility, such that the molecule has a higher carrier mobility. In addition, a core group of the molecule is a structure based on mesitylene triazine. The molecular rigidity of the structure is strong, and the intermolecular stacking can be effectively inhibited, such that the material has a lower refractive index, and the surface plasma polariton loss of an organic light-emitting device can be effectively suppressed. The forward light-emitting efficiency of the light-emitting device can be improved by more than 14% by applying the electron transport material to the device.

Abstract: The present disclosure relates to a display panel and a manufacturing method thereof, and a display device. The display panel includes a plurality of pixel units. The pixel unit includes a red sub-pixel, a green sub-pixel and a blue sub-pixel. The red sub-pixel, the green sub-pixel and the blue sub-pixel each include a cathode, an electron transport layer, a quantum dot luminescent layer, a hole function layer and an anode that are stacked. The electron transport layer is made of Mg-doped ZnO nanoparticles, and a Mg doping concentration in the electron transport layer of the red sub-pixel, a Mg doping concentration in the electron transport layer of the green sub-pixel and a Mg doping concentration in the electron transport layer of the blue sub-pixel decrease successively.

Abstract: The present disclosure discloses an electroluminescent diode and a display device. The electroluminescent diode includes a cathode, a luminescent layer, a hole transport layer and an anode. The hole transport layer has a hole injection control structure, the hole injection control structure includes a first hole conduction layer and a second hole conduction layer that are stacked, and a material of the second hole conduction layer is a material used in the first hole conduction layer that is P-type doped. The hole injection control structure may significantly improve the performance of hole injection in the electroluminescent diode, so as to balance a number of carriers in the electroluminescent diode, thereby effectively improving the luminescence performance and prolonging the service life thereof.

Abstract: The present disclosure relates to an electron transport material and an application thereof. According to the electron transport material, a structure of a molecular is designed and selected to be constructed by a group having a high carrier mobility, such that the molecule has a higher carrier mobility. In addition, a core group of the molecule is a structure based on mesitylene triazine. The molecular rigidity of the structure is strong, and the intermolecular stacking can be effectively inhibited, such that the material has a lower refractive index, and the surface plasma polariton loss of an organic light-emitting device can be effectively suppressed. The forward light-emitting efficiency of the light-emitting device can be improved by more than 14% by applying the electron transport material to the device.