Abstract: A conditioning assembly, a method for manufacturing the same, and an assembled conditioner using the same are provided. The conditioning assembly includes a composite substrate and a dressing part. The composite substrate includes a porous reinforced structure and a filling material. The filling material covers the porous reinforced structure and fills into the inside of the porous reinforced structure. The dressing part is combined with the composite substrate.

Abstract: An optical film and a light emitting module using the same are disclosed. The light emitting module includes a light emitting assembly and an optical film. The light emitting assembly includes a substrate and a plurality of light emitting units disposed on the substrate. The optical film is disposed above the light emitting units, and includes a base layer and a first optical structure. The first optical structure is disposed on the base layer and includes a first high refractive index layer and a first low refractive index layer. The first high refractive index layer is located between the light emitting assembly and the first low refractive index layer. The first inclined surfaces are formed on an interface between the first high refractive index layer and the first low refractive index layer. Each first inclined surface is inclined relative to a thickness direction of the base layer.

Abstract: An optical film and a light emitting module using the same are disclosed. The light emitting module includes a light emitting assembly and an optical film. The light emitting assembly includes a substrate and a plurality of light emitting units disposed on the substrate. The optical film is disposed above the light emitting units, and includes a base layer and a first optical structure. The first optical structure is disposed on the base layer and includes a first high refractive index layer and a first low refractive index layer. The first high refractive index layer is located between the light emitting assembly and the first low refractive index layer. The first inclined surfaces are formed on an interface between the first high refractive index layer and the first low refractive index layer. Each first inclined surface is inclined relative to a thickness direction of the base layer.

Abstract: A multilayer optical film structure and a method of manufacturing the same are provided. The multilayer optical film structure includes a base layer, a first optical structure and a second optical structure. The base layer has a first surface and a second surface. The first optical structure is disposed on the first surface of the base layer. The second optical structure is disposed on the second surface of the base layer, and includes a first structural layer, a second structural layer and a third structural layer. The first structural layer is located between the base layer and the second structural layer, and the second structural layer is located between the first structural layer and the third structural layer. The difference between the refractive index of the first structural layer and the refractive index of the second structural layer is greater than or equal to 0.1.

Abstract: A topical composition comprising an effective amount of a prebiotic capable of nourishing and encouraging skin microorganisms such as S. epidermidis to colonize the skin and supplant acne-causing bacteria such as P. acnes. Additional components can be used by S. epidermidis to create short chain fatty acids that inhibit growth of P. acnes. The preferred prebiotics are Camellia Sinensis Leaf Extract, Glycyrrhiza Glabra (Licorice) Root Extract, and Chamomilla Recutita (Matricaria) Flower Extract. PEG-12 is used by S. epidermidis to create short chain fatty acids that inhibit P. acnes. The composition is highly effective in a method of treating acne.

Abstract: A three dimensional (3D) stereoscopic image rendering system uses a lenticular lens sheet with a light diffusing multi-layer, which may include an adhesive layer, formed on the external surface of its lower base. The microstructural constitution of the light diffusing multi-layer suppresses moiré patterns typically affecting the 3D images. When longitudinally directed stray light rays are internally reflected from the interior surfaces of each lenticular lens in the sheet and impinge on the light diffusing multi-layer contacting the lower base, the stray light rays are scattered diffusely into various directions, thereby significantly reducing the intensity of the moiré pattern and its effect on the image. In addition, certain related problems, such as crosstalk between left and right directed images are also reduced. As a result, the viewer perceives a high quality, moiré free, stereoscopic 3D image.

Abstract: The present disclosure discloses a chemical mechanical polishing apparatus including a polishing machine platform, an electrode film, a polishing pad and a wafer carrier. The electrode film has a first single electrode structure and is disposed on the polishing machine platform. The polishing pad is disposed on the electrode film. The wafer carrier is disposed on the polishing machine platform. In particular, the first single electrode structure generates a first homopolar electric field on the polishing pad.

Abstract: This invention is related to a method for producing polymer latex particle coated with silver nanoparticles. First, a polymer latex particle suspension is mixed with a silver nitrate solution in a weight ratio of 10:1 to 1:10 at 50° C. to 90° C. for 10 to 120 minutes to form a mixed solution. After the temperature of the mix solution is cooled to 50° C. to 85° C., a sodium citrate solution is added to react with the mixed solution for 10 to 240 minutes to form a polymer latex particle coated with silver nanoparticles, which has antibacterial activity.

Abstract: This invention is related to a method for producing polymer latex particle coated with silver nanoparticles. First, a polymer latex particle suspension is mixed with a silver nitrate solution in a weight ratio of 10:1 to 1:10 at 50° C. to 90° C. for 10 to 120 minutes to form a mixed solution. After the temperature of the mix solution is cooled to 50° C. to 85° C., a sodium citrate solution is added to react with the mixed solution for 10 to 240 minutes to form a polymer latex particle coated with silver nanoparticles, which has antibacterial activity.

Abstract: A three dimensional (3D) stereoscopic image rendering system uses a lenticular lens sheet with a light diffusing multi-layer, which may include an adhesive layer, formed on the external surface of its lower base. The microstructural constitution of the light diffusing multi-layer suppresses moiré patterns typically affecting the 3D images. When longitudinally directed stray light rays are internally reflected from the interior surfaces of each lenticular lens in the sheet and impinge on the light diffusing multi-layer contacting the lower base, the stray light rays are scattered diffusely into various directions, thereby significantly reducing the intensity of the moiré pattern and its effect on the image. In addition, certain related problems, such as crosstalk between left and right directed images are also reduced. As a result, the viewer perceives a high quality, moiré free, stereoscopic 3D image.

Abstract: A heat-dissipation unit with heat-dissipation microstructure and method of manufacturing the same is disclosed. The heat-dissipation unit with heat-dissipation microstructure includes a main body internally defining a chamber; a wick structure formed on an inner surface of the chamber; and at least a SiO2 nano thin film coated on the wick structure. The SiO2 nano thin film is formed of a plurality of SiO2 nanograins, and is coated on the wick structure of the heat-dissipation unit through the sol-gel process. With the at least one layer of SiO2 nano thin film coated on the wick structure, it is able to upgrade the heat dissipation performance of the heat-dissipation unit.

Abstract: A heat-dissipation unit coated with oxidation-resistant nano thin film includes a metal main body having a heat-absorbing portion and a heat-dissipating portion, both of which are coated with at least a nano metal compound thin film. To form the nano metal compound thin film on the heat-dissipation unit, first form at least a nano compound coating on an outer surface of the heat-dissipation unit, and then supply a reduction gas into a high-temperature environment to perform a heat treatment and a reduction process on the heat-dissipation unit and the nano compound coating thereof, and finally, a nano metal compound thin film is formed on the surface of the heat-dissipation unit after completion of the heat treatment and the reduction process. With the nano metal compound thin film, the heat-dissipation unit is protected against formation of oxide on its surface and accordingly against occurrence of increased thermal resistance thereof.

Abstract: A heat-dissipation unit with heat-dissipation microstructure and method of manufacturing the same is disclosed. The heat-dissipation unit with heat-dissipation microstructure includes a main body internally defining a chamber; a wick structure formed on an inner surface of the chamber; and at least a SiO2 nano thin film coated on the wick structure. The SiO2 nano thin film is formed of a plurality of SiO2 nanograins, and is coated on the wick structure of the heat-dissipation unit through the sol-gel process. With the at least one layer of SiO2 nano thin film coated on the wick structure, it is able to upgrade the heat dissipation performance of the heat-dissipation unit.

Abstract: A heat-dissipation unit with heat-dissipation microstructure and method of manufacturing the same is disclosed. The heat-dissipation unit with heat-dissipation microstructure includes a main body internally defining a chamber; a wick structure formed on an inner surface of the chamber; and at least a SiO2 nano thin film coated on the wick structure. The SiO2 nano thin film is formed of a plurality of SiO2 nanograins, and is coated on the wick structure of the heat-dissipation unit through the sol-gel process. With the at least one layer of SiO2 nano thin film coated on the wick structure, it is able to upgrade the heat dissipation performance of the heat-dissipation unit.

Abstract: A heat-dissipation unit coated with oxidation-resistant nano thin film includes a metal main body having a heat-absorbing portion and a heat-dissipating portion, both of which are coated with at least a nano metal compound thin film. To form the nano metal compound thin film on the heat-dissipation unit, first form at least a nano compound coating on an outer surface of the heat-dissipation unit, and then supply a reduction gas into a high-temperature environment to perform a heat treatment and a reduction process on the heat-dissipation unit and the nano compound coating thereof, and finally, a nano metal compound thin film is formed on the surface of the heat-dissipation unit after completion of the heat treatment and the reduction process. With the nano metal compound thin film, the heat-dissipation unit is protected against formation of oxide on its surface and accordingly against occurrence of increased thermal resistance thereof.

Abstract: A heat-dissipation unit coated with oxidation-resistant nano thin film includes a metal main body having a heat-absorbing portion and a heat-dissipating portion, both of which are coated with at least a nano metal compound thin film. To form the nano metal compound thin film on the heat-dissipation unit, first form at least a nano compound coating on an outer surface of the heat-dissipation unit, and then supply a reduction gas into a high-temperature environment to perform a heat treatment and a reduction process on the heat-dissipation unit and the nano compound coating thereof, and finally, a nano metal compound thin film is formed on the surface of the heat-dissipation unit after completion of the heat treatment and the reduction process. With the nano metal compound thin film, the heat-dissipation unit is protected against formation of oxide on its surface and accordingly against occurrence of increased thermal resistance thereof.

Abstract: A heat-dissipation unit coated with oxidation-resistant nano thin film includes a metal main body having a heat-absorbing portion and a heat-dissipating portion, both of which are coated with at least a nano metal compound thin film. To form the nano metal compound thin film on the heat-dissipation unit, first form at least a nano compound coating on an outer surface of the heat-dissipation unit, and then supply a reduction gas into a high-temperature environment to perform a heat treatment and a reduction process on the heat-dissipation unit and the nano compound coating thereof, and finally, a nano metal compound thin film is formed on the surface of the heat-dissipation unit after completion of the heat treatment and the reduction process. With the nano metal compound thin film, the heat-dissipation unit is protected against formation of oxide on its surface and accordingly against occurrence of increased thermal resistance thereof.

Abstract: A heat-dissipation unit with heat-dissipation microstructure and method of manufacturing the same is disclosed. The heat-dissipation unit with heat-dissipation microstructure includes a main body internally defining a chamber; a wick structure formed on an inner surface of the chamber; and at least a SiO2 nano thin film coated on the wick structure. The SiO2 nano thin film is formed of a plurality of SiO2 nanograins, and is coated on the wick structure of the heat-dissipation unit through the sol-gel process. With the at least one layer of SiO2 nano thin film coated on the wick structure, it is able to upgrade the heat dissipation performance of the heat-dissipation unit.

Abstract: Provided are a heat-dissipating structure and a method for fabricating the same so as for the heat-dissipating structure thus fabricated to dissipate heat from the heat-generating portion of an electronic device. The heat-dissipating structure includes a metal base and a carbon composite layer. The carbon composite layer is formed on the metal base and includes metal particles and carbon particles sintered together. The heat-dissipating structure is more effective in dissipating heat than a conventional vapor chamber or heat spreader. The heat-dissipating structure further includes a carbon composite layer and a metal plate with high thermal conductivity. The heat-dissipating structure is attachable to a heat-generating electronic component to facilitate heat exchange therebetween and thereby enhance heat dissipation.

Abstract: A heat spreader structure includes at least one carbonaceous matter-metal composite layer having a plurality of carbonaceous particles and at least one metal-mesh layer having a plurality of meshes. The carbonaceous particles are either separately firmly held inside the meshes of the metal-mesh layer or covered and held in place by the metal-mesh layer. The carbonaceous matter-metal composite layer can be coated on a metal-made body through sintering to ensure good bonding of the carbonaceous particles to the metal-made body and accordingly enhance the heat spreading efficiency of the metal-made body. A method for manufacturing the heat spreader structure is also disclosed.