Abstract: A method of manufacturing flexible substrate is provided, the method comprising following steps: pasting a heat dissipation sheet on a carrier substrate; preparing a thermal insulating layer on the heat dissipation sheet; preparing a flexible substrate layer on the thermal insulating layer; preparing a display element on the flexible substrate layer; and separating the carrier substrate and the heat dissipation sheet and obtaining a flexible substrate. The method of manufacturing flexible substrate and the flexible substrate are provided by this invention, which could reduce thickness of flexible substrate and enhances curving property.

Abstract: An article includes a body having at least a holding or resting surface, and a plurality of spaced-apart fine pillars made of a resilient and deformable plastic material and projected from the holding or resting surface of the body. Each of the spaced-apart fine pillars includes a body portion with a bore defining a longitudinal axis, a base end and a free end. The base end of the fine pillar is integrally connected with the holding or resting surface the body. The body portion of the fine pillar extends from the base end along the longitudinal axis to the free end in a predetermined height. The fine pillars can be able to deform elastically when subjected to even a minimum pressure to provide the anti-skidding, shock-absorbing and breathable capacities.

Abstract: A flexible touch screen fold along middle is provided. The flexible touch screen has a window region with a touch function, a folded section, and a non-window region for arranging leads. A part of the electrodes located at the folded section is made of transparent electrode material with a bending resistance. Because the electrodes of the folded section are made of the material with a bending resistance, the bending stress of the electrodes at the folded area of the flexible touch display panel can be improved, and the service life of the flexible touch display panel can be increased.

Abstract: The instant disclosure provides a gas detection device including a chamber module, a light emitting module and an optical sensing module. The chamber module includes a condensing chamber, a receiving chamber and a sampling chamber. The condensing chamber has a first reflecting structure, a second reflecting structure and a third reflecting structure. The first reflecting structure is disposed between the second reflecting structure and the third reflecting structure. The light emitting module is disposed on the condensing chamber and includes a light emitting unit corresponding to the condensing chamber. The optical sensing module includes an optical sensing unit disposed in the receiving chamber.

Abstract: An online verification method includes performing a flight suitability verification on an unmanned aerial vehicle (UAV) system and determining a handling measure of the UAV system according to a verification result. The UAV system includes a UAV and a ground station. The flight suitability verification is performed on at least one of a plurality of verification items. The verification items includes a setting of the UAV system and a setting of data associated with safe operations.

Abstract: A TFT substrate and manufacturing method thereof are provided. The method of manufacturing TFT substrate comprises providing a substrate, preparing a flexible substrate on the substrate; depositing a blocking layer on the flexible substrate; depositing a grid layer on the blocking layer, etching the grid layer for forming a grid wire, and material of the grid wire is Al; depositing a grid insulating layer on the blocking layer, the grid insulating layer covering the grid wire; forming an active layer on the grid insulting layer; depositing a layer insulating layer on the grid insulating layer, and the layer insulating layer covering the active layer; hydrotreating and activating treatment the active layer.

Abstract: A method of forming a semiconductor device structure is provided. The method includes successively forming first and second hard mask layers over a trench pattern region of a material layer. The second hard mask layer has a first tapered opening corresponding to a portion of the trench pattern region and a passivation spacer is formed on a sidewall of the first tapered opening to form a second tapered opening therein. The method also includes forming a third tapered opening below the second tapered opening and removing a portion of the passivation spacer in a first etching process. The method also includes forming a vertical opening in the first hard mask layer below the bottom of the third tapered opening in a second etching process. The vertical opening has a width that is substantially equal to a bottom width of the third tapered opening.

Abstract: The present disclosure discloses a display substrate, comprising an inorganic film layer; a substrate film layer disposed on one side surface and four sides of the inorganic film layer, partially covered by the substrate film layer; a thin film transistor, OLED layer and encapsulation layer disposed on the substrate film layer. A manufacturing method thereof, comprising the following steps: depositing an inorganic film layer on a carrier substrate; coating the substrate film layer on one side surface and four sides of the inorganic film layer to partially cover the inorganic film layer; preparing a thin film transistor on the substrate film layer; preparing an OLED layer on the thin film transistor; preparing an encapsulation layer on the OLED layer. The present disclosure can effectively reduce the uneven area of the thickness of the edge film layer of the display substrate, and increases the utilization rate of the used area.

Abstract: A method of forming a semiconductor device structure is provided. The method includes successively forming first and second hard mask layers over a trench pattern region of a material layer. The second hard mask layer has a first tapered opening corresponding to a portion of the trench pattern region and a passivation spacer is formed on a sidewall of the first tapered opening to form a second tapered opening therein. The method also includes forming a third tapered opening below the second tapered opening and removing a portion of the passivation spacer in a first etching process. The method also includes forming a vertical opening in the first hard mask layer below the bottom of the third tapered opening in a second etching process. The vertical opening has a width that is substantially equal to a bottom width of the third tapered opening.

Abstract: A method of manufacturing flexible substrate is provided, the method comprising following steps: pasting a heat dissipation sheet on a carrier substrate; preparing a thermal insulating layer on the heat dissipation sheet; preparing a flexible substrate layer on the thermal insulating layer; preparing a display element on the flexible substrate layer; and separating the carrier substrate and the heat dissipation sheet and obtaining a flexible substrate. The method of manufacturing flexible substrate and the flexible substrate are provided by this invention, which could reduce thickness of flexible substrate and enhances curving property.

Abstract: A method includes forming a mask layer over a target layer. A first etching process is performed on the mask layer to form a first opening and a second opening in the mask layer. A second etching process is performed on the mask layer to reduce an end-to-end spacing between the first opening and the second opening. The first etching process and the second etching process have different anisotropy properties. A pattern of the mask layer is transferred to the target layer.

Abstract: A method of forming a semiconductor device includes forming a source/drain region on a substrate and forming a first interlayer dielectric (ILD) layer over the source/drain region. The method further includes forming a first conductive region within the first ILD layer, selectively removing a portion of the first conductive region to form a concave top surface of the first conductive region. The method also includes forming a second ILD layer over the first ILD layer and forming a second conductive region within the second ILD layer and on the concave top surface. The concave top surface provides a large contact area, and hence reduced contact resistance between the first and second conductive regions.

Abstract: A method for controlling a movable object comprise receiving an input indicative of a selected mode, wherein the selected mode is selected from a plurality of modes, and effecting movement of the movable object based on the selected mode. The plurality of modes may comprise at least a target mode and a directional mode. The movable object may be configured to move towards or follow a selected target when the selected mode is the target mode. The movable object may be configured to move in a selected direction when the selected mode is the directional mode. An apparatus, a medium and an UAV system are also provided.

Abstract: A projection system and a method for calibrating display image are provided. The method includes: setting a correction image having identification patterns, and establishing first coordinate information of the identification patterns; using a projection device to project the correction image on a display screen; performing an image capturing operation to the correction image and the display screen to obtain a captured image; calculating second coordinate information of the identification patterns in the captured image, and calculating coordinate translation information according to the first coordinate information and the second coordinate information; calculating boundary information of the display screen according to a plurality of boundary coordinate values of the display screen in the captured image and the coordinate translation information, such that the projection device adjusts a size of a projection image for corresponding to the display screen according to the boundary information.

Abstract: The present invention provides a method for increasing the metabolic rate of recombinant microorganism growth under an anaerobic environment, wherein a recombinant strain is placed under an anaerobic environment and cultured under a culture condition, wherein the culture condition includes a potential difference and a nitrogen source, but not includes an organic carbon source. According to the method disclosed by the present invention, the recombinant strain can perform anaerobic respiration and metabolic reaction in an anaerobic environment, and can grow stably and rapidly.

Abstract: A flexible touch screen fold along middle is provided. The flexible touch screen has a window region with a touch function, a folded section, and a non-window region for arranging leads. A part of the electrodes located at the folded section is made of transparent electrode material with a bending resistance. Because the electrodes of the folded section are made of the material with a bending resistance, the bending stress of the electrodes at the folded area of the flexible touch display panel can be improved, and the service life of the flexible touch display panel can be increased.

Abstract: An improved microparticle or lyophilized or otherwise reconstitutable microparticle composition thereof for medical therapy, including ocular therapy.

Abstract: A main body of a bicycle saddle includes an elastomer provided on a top surface thereof with a recess, a cover layer covering the top surface and having a concave area corresponding to the recess, and an auxiliary functional piece embedded in the concave area. The main body is manufactured by attaching a contacting surface of the cover layer to a mold cavity of a forming mold by vacuum suction to make a protrusion of the inner wall or a piece material glued to the contacting surface and including the auxiliary functional piece prop up the cover layer to form the concave area, forming the elastomer in the mold cavity, and embedding the auxiliary functional piece in the concave area or exposing the auxiliary functional piece on the contacting surface.

Abstract: A method for controlling an aircraft includes determining a target angular velocity of the aircraft based at least in part on a target attitude of the aircraft, determining a target angular acceleration of the aircraft based at least in part on the target angular velocity, and generating a command signal for at least one propulsion unit of the aircraft based at least in part on the target angular acceleration.

Abstract: A load-bearing frame of a bicycle saddle comprises a base and a rim surrounding the base. The base is made of a first plastic material of predetermined rigidity and includes a relatively narrow anterior portion and a relatively wider posterior portion. The base further has a top surface, a bottom surface, and a peripheral edge. The rim is made of a second plastic material of rigidity being smaller than that of the first plastic material. The rim has an inner side coupled with the periphery edge of the base and an outer side extending upwardly from the inner side to define a first receiving space with a first upper opening.