Abstract: Embodiments of the present disclosure disclose an OLED substrate, a manufacturing thereof and a display device. The OLED substrate includes a base substrate, a patterned metal wiring formed on a surface of the base substrate, a flatness adjustment layer formed on a surface of the base substrate not covered by the patterned metal wiring, a planarization layer formed on a surface of the flatness adjustment layer facing away from the base substrate and on a surface of the patterned metal wiring facing away from the base substrate, and an OLED anode formed on a surface of the planarization layer facing away from the base substrate.

Abstract: An optical adjustment method and an optical adjustment device for a display panel, and a display device are provided. The optical adjustment method includes: displaying N groups of testing images sequentially on the display panel, each group of testing images including M images distributed at different display regions of the display panel, each image corresponding to one to-be-adjusted reference color, N being an integer greater than or equal to 1, M being an integer greater than or equal to 1; and when each group of testing images are displayed on the display panel, detecting, by an optical detection unit, optical parameters of the M images in the group of testing images simultaneously, and performing optical adjustment on the display panel in accordance with the optical parameters.

Abstract: A disinfectant material may be used to kill bacteria, viruses, mold and fungal contaminants while minimizing toxic risks to humans. The disinfectant material may be effective in killing pathogens and more on numerous types of surfaces including on the skin of mammals. Exemplary embodiments include a copper halogen, such as copper iodide. Exemplary materials may also include a pH stabilizer, a preservative, humectants, or other constituents. Exemplary disinfectant materials may be used as a liquid or a gel, applied via a wipe, sprayed or in other forms.

Abstract: A disinfectant material may be used to kill bacteria, viruses, mold and fungal contaminants while minimizing toxic risks to humans. The disinfectant material may be effective in killing pathogens and more on numerous types of surfaces including on the skin of mammals. Exemplary embodiments include a copper halogen, such as copper iodide. Exemplary materials may also include a pH stabilizer, a preservative, humectants, or other constituents. Exemplary disinfectant materials may be used as a liquid or a gel, applied via a wipe, sprayed or in other forms.

Abstract: An article of manufacture includes a liquid tight container that holds a disinfecting material. A disinfecting material includes a liquid gel material. The disinfecting material is dispensable from the container through a manual dispenser. The material is usable to apply a antimicrobial coating on surfaces, including the external surfaces of mammals such as human skin.

Abstract: An article of manufacture includes a liquid tight container that holds a disinfecting solution. The disinfecting solution is dispensed from the container via an atomizing sprayer. The solution is usable to apply a film of the solution on surfaces. The film applied by the atomizing sprayer is operative to destroy bacterial and fungal organisms on the surfaces at the time of initial application and organisms that later come in contact with the film on the surface.

Abstract: A terminal matching method, a terminal and a system are provided, the method includes: a first terminal receiving a matching request with a data packet sent from a second terminal, wherein, the data packet includes identity information of a target terminal and identity information of the second terminal, and the identity information of the target terminal can be obtained by scanning identity two-dimension codes of the target terminal by the second terminal; the first terminal generating matching two-dimension codes according to the data packet to make the second terminal analyze the matching two-dimension codes if the identity information of the target terminal is the identity information of the first terminal; and the first terminal obtaining a matching end command transmitted from the second terminal, wherein the matching end command is an instruction that is generated by the second terminal based on the matching two-dimension codes which have been analyzed.

Abstract: An audio file processing method and player are provided. The audio file processing method includes: reading at least one audio file from a Blu-ray disc via a player, compressing the at least one audio file to generate at least one compressed audio file, and storing the at least one compressed audio file in a system cache of the player. According to the above method, the usage of the system cache is reduced when playing audio files from high definition disc and the cost is reduced accordingly.

Abstract: Conductive patterns are formed using formulations containing metallic particles, which may be copper. These metallic particles may be coated with a binder material that improves adhesion during photosintering of the formulations. The binder contains chemistry suitable for it to be removed from the particles in a separate process such as drying or thermal sintering. The coating is a non-volatile organic compound attached to the metallic particles with a minimum thickness oxide coating. The organic coating improves a coefficient of thermal expansion value match between the metallic particles and the substrate, which may be polymeric.

Abstract: Embodiments of the present invention disclosed herein use innovative pastes to fill surface pores (cavities) and flatten (planarize) surfaces of porous materials. A method for making a heat transfer apparatus comprises making a paste comprising particles of a first heat transfer material, a vehicle, and a binder, filling cavities on an external surface of a second heat transfer material with the paste, and drying the paste filled in the cavities so that an external, surface of the dried paste in a cavity is substantially planar with the external surface of the second heat transfer material.

Abstract: A dielectric layer is directly applied onto the surface of a heat sink part. For example, the composition for making the dielectric layer may be made into a paste or ink and then printed as a paste or ink, or applied with some other equivalent method, such as a lamination technique. The electrical circuit traces are then printed in a similar fashion onto the dielectric layer in the required pattern for whatever circuitry is to be applied. That circuitry (e.g., circuit elements) is then attached to the electrical traces as needed for the particular application.

Abstract: A nylon 11 composite has significantly improved flexural modulus while keeping or even increasing the impact strength. This composite system may comprise a nylon 11/filler/modifier. The “ball” portion of badminton shuttlecocks made by this type of composite more closely emulate the flight capabilities of natural feather shuttlecocks than neat nylon 11.

Abstract: A conductive ink includes metallic nanoparticles, a polymeric dispersant, and a solvent. The polymeric dispersant may be ionic, non-ionic, or any combination of ionic and non-ionic polymeric dispersants. The solvent may include water, an organic solvent, or any combination thereof. The conductive ink may include a stabilizing agent, an adhesion promoter, a surface tension modifier, a defoaming agent, a leveling additive, a rheology modifier, a wetting agent, an ionic strength modifier, or any combination thereof.

Abstract: A metallic ink including a vehicle, a multiplicity of copper nanoparticles, and an alcohol. The conductive metallic ink may be deposited on a substrate by methods including inkjet printing and draw-down printing. The ink may be pre-cured and cured to form a conductor on the substrate.

Abstract: In a process for producing a solar cell, a sintering process performed on a nickel nanoparticle ink forms nickel silicide to create good adhesion and a low electrical ohmic contact to a silicon layer underneath, and allows for a subsequently electroplated metal layer to reduce electrode resistances. The printed nickel nanoparticles react with the silicon nitride of the antireflective layer to form conductive nickel silicide.

Abstract: A nylon 11 composite has significantly improved flexural modulus while keeping or even increasing the impact strength. This composite system may comprise a nylon 11/filler/modifier. The “ball” portion of badminton shuttlecocks made by this type of composite more closely emulate the flight capabilities of natural feather shuttlecocks than neat nylon 11.

Abstract: A metallic ink including a vehicle, a multiplicity of copper nanoparticles, and an alcohol. The conductive metallic ink may be deposited on a substrate by methods including inkjet printing and draw-down printing. The ink may be pre-cured and cured to form a conductor on the substrate.

Abstract: A conductive ink includes metallic nanoparticles, a polymeric dispersant, and a solvent. The polymeric dispersant may be ionic, non-ionic, or any combination of ionic and non-ionic polymeric dispersants. The solvent may include water, an organic solvent, or any combination thereof. The conductive ink may include a stabilizing agent, an adhesion promoter, a surface tension modifier, a defoaming agent, a leveling additive, a rheology modifier, a wetting agent, an ionic strength modifier, or any combination thereof.

Abstract: A nylon 11 composite system has significantly improved flexural modulus while keeping or even increasing the impact strength. This composite system may comprise a nylon 11/filter/modifier. The flexural modulus and impact strength increases over 150% and 80%, respectively compared with neat nylon 11. The “ball” portion of badminton shuttlecocks made by this type of composite may more closely duplicate the flight capabilities of natural duck feather shuttlecocks than nylon 11. The nylon 11/filler/modifier ay allow for a very close duplication of the restoration effects of shuttlecocks made from feathers therefore providing a product which can be a one for one aerodynamic performance substitution for the natural product (feathers).