A method for producing an organic non-fullerene electron transport compound includes mixing naphthalene-1,4,5,8-tetracarboxylic dianhydride and an amine compound in dimethylformamide. The method also includes heating the mixture to a temperature greater than or equal to 70° and less than or equal to 160° C. for an amount of time greater than or equal to 1 hour and less than or equal to 24 hours. The method further includes isolating an organic non-fullerene electron transport compound reaction product.

An organic light-emitting diode (OLED) structure includes a stack of OLED layers; a light extraction layer (LEL) comprising a UV-cured ink; and a UV blocking layer between the LEL and the stack of OLED layers.

An organic light-emitting diode (OLED) structure includes a stack of OLED layers that includes a light emission zone having a planar portion, and a light extraction layer formed of a UV-cured ink disposed over the light emission zone of the stack of OLED layers. The light extraction layer has a gradient in index of refraction along an axis normal to the planar portion.

The present invention relates to formulations comprising at least one organic semiconductor and at least one organic solvent, characterized in that the formulation contains less than 10,000 particles per liter formulation having an average size in the range from 0.1 to 20 m, to their use for the preparation of electronic devices, to methods for preparing electronic devices using the formulations of the present invention, and to electronic devices prepared from such methods and formulations.

An organic material purification composition, a mixed composition, and a method of purifying an organic material, the organic material purification composition including an ionic liquid in which a cation and an anion are combined; and an organic solvent, wherein the organic solvent includes an alcohol or a ketone.

The present disclosure discloses a method of recycling lead-acid battery waste into lead halide for resource utilization and purification. The method includes: subjecting a lead paste material from spent lead-acid batteries to halogenation and purification with a chemical wet process to obtain a halide, which can be used to prepare a novel photovoltaic light-emitting device. This method realizes the purpose of recycling and value-added utilization of wastes. The present disclosure provides a method for purifying a halide from a lead paste material of spent lead batteries, which has a simple process, strong operability, low energy consumption, and no production of toxic waste gas and liquid, thus achieving the purpose of energy conservation and emission reduction. Moreover, the halide is used to prepare a novel photovoltaic light-emitting device, which achieves the value-added utilization and changes the traditional lead paste recycling concept.

Provided are an organic semiconductor element, a composition, an organic semiconductor composition, an organic semiconductor film, a method of producing a composition, a method of manufacturing an organic semiconductor element, and a method of purifying a compound. The organic semiconductor element includes an organic semiconductor film formed by forming a composition into a film, in which the composition contains a compound represented by the following formula (where R.sup.1 to R.sup.8 each independently represent a hydrogen atom or a substituent), and a total content of sodium element, potassium element, silicon element, and aluminum element in the composition is 50 ppm or less. The organic semiconductor element has high heat resistance of carrier mobility.

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A sublimation purification apparatus that includes a vacuum chamber; a tube housing positioned in the vacuum chamber; a boat in close contact with the tube housing; and heating units positioned adjacent to an outer surface of the boat and an outer surface of the tube housing, respectively, wherein a sublimation purification target material is contained in the boat, and at least one of the boat and the tube housing is formed of a metal.

The present invention provides an improved hole transport material, manufacturing method and an electroluminescent device having a central core made of tetramethyldihydrophenazine. A structural formula of the hole transport material is:

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The present invention adjusts the structure of donor units to change a capability of providing electrons thereof, designs a hole transport material of a high mobility and reasonable wires, and the material improves the compounding efficiency.

A method for room-temperature fabrication of an organolead halide perovskite film includes: forming a PbX2.(L)y film based on solid-gas reactions between ligand (L) vapor and a PbX2 film at room temperature; forming a perovskite film by exposing the PbX2.(L)y film to a solution of organic ammonium halide at room temperature; removing the perovskite film from the solution of organic ammonium halide; washing the perovskite film; drying the perovskite film; exposing the perovskite film to a methylamine/alcohols gas mixture; removing the perovskite film from the methylamine/alcohols gas mixture; and drying the perovskite film.