Abstract: A flexible electronic module including a patterned flexible substrate, a stretchable material layer, and at least one electronic device is provided. The patterned flexible substrate includes at least one distributed region, and the stretchable material layer connects the distributed region. The electronic device is disposed on at least one of the patterned flexible substrate and the stretchable material layer. A manufacturing method of the flexible electronic module is also provided.

Abstract: An optical film structure includes a first substrate having a first surface and a second surface, an optical component includes a micro-lens array and disposed on the first surface of the first substrate, a micro-lens array including a plurality of micro-lens units each of which has a round concentrated area with a projected radius R formed on the first surface, a planarization layer disposed on the optical component, a light absorbing layer disposed on the planarization layer and including a plurality of light absorbing units each of which has a width W. Light incident from the second surface of the first substrate and passing through the micro-lens array is focused on the light absorbing units. The micro-lens array and the planarization layer have a difference in refractive index greater than or equal to 0.2; and W is less than or equal to R/2.

Abstract: A foldable package structure including a first substrate, a second substrate, a plurality of adhesive layers and at least one environmental-sensitive electronic component is provided. At least one of the first and second laminated substrates comprises an ultra-thin glass plate. The foldable package structure comprises a predetermined folded region and the ultra-thin glass plate is disposed at one side of the predetermined folded region and stays away from the predetermined folded region.

Abstract: Provided herein are devices and methods for the micro-isolation of biological cellular material. A micro-isolation device described can comprise a photomask that protects regions of interest against DNA-destroying illumination. The micro-isolation device can further comprise photosensitive material defining access wells following illumination and subsequent developing of the photosensitive material. The micro-isolation device can further comprise a chambered microfluidic device comprising channels providing access to wells defined in photosensitive material. The micro-isolation device can comprise a chambered microfluidic device without access wells defined in photosensitive material where valves control the flow of gases or liquids through the channels of the microfluidic device.

Abstract: An optical film and a display assembly applying the optical film are provided. The optical film may comprise a plurality of truncated tapered units embedded in a material layer for transmitting a light emitted from the display unit by reflecting the light through a reflection surface between the truncated tapered units and the material layer, wherein a ratio of the area of a first end surface where the light emerges from each truncated tapered unit and the area of a second end surface where the light is incident into each truncated tapered may be between 0.2 and 0.6. Furthermore, a light absorbing layer may be formed on a light output side of the optical film for absorbing ambient light.

Abstract: A foldable display and an image processing method thereof are disclosed. The foldable display comprises a display module, a memory, a sensor module, and a processing unit. The sensor module senses a bending state of the display module. The processing unit generates adjusted images according to an image signal, and stores those adjusted images to a plurality of memory addresses of the memory. The processing unit selects a reading address from those memory addresses according the bending state. The processing unit selects a corresponding adjusted image from the memory according to the reading address and outputs the corresponding adjusted image to the display module.

Abstract: A touch sensing film structure including a touch-sensitive device layer, a water/oxygen barrier layer and a flexible substrate is provided. The touch-sensitive device layer has a first surface and a second surface opposite to the first surface. The water/oxygen barrier layer is formed on the first surface or the second surface or integrated with the touch-sensitive device layer to form a multi-function layer. The flexible substrate can stack with the water/oxygen barrier layer and the touch-sensitive device layer, or stack with the multi-function layer.

Abstract: A foldable package structure including a first substrate, a second substrate, a plurality of adhesive layers and at least one environmental-sensitive electronic component is provided. At least one of the first and second laminated substrates comprises an ultra-thin glass plate. The foldable package structure comprises a predetermined folded region and the ultra-thin glass plate is disposed at one side of the predetermined folded region and stays away from the predetermined folded region.

Abstract: A head-up display device includes an image module, a substrate, and an optical film. The image module has an emitting source, wherein the emitting source transmits at least one image. The substrate is disposed corresponding to the image module. The optical film is disposed on the substrate and includes at least one transmission layer, wherein each transmission layer has a plurality of transmitting column structures obliquely arranged side by side, and a longitudinal direction of the transmitting column structure has a tilt angle with respect to a normal of the substrate. The at least one image is transmitted to the optical film, and the obliquely disposed transmitting column structures cause the at least one image to scatter on the optical film.

Abstract: An LED chip package having a topographical glass coating on top surface for enhancing heat dissipation is disclosed. A circular wall is optionally built to surround the LED chip for reflecting light beams from the LED chips; the glass coating further extends to cove the inner wall surface of the circular wall. The larger area the glass coating covers, the more heat the package dissipates in a time unit. The LED chip package according to the present invention exhibits higher thermal dissipation and helps to last longer the life of the LED chip package than a traditional one.

Abstract: A touch sensing film structure including a touch-sensitive device layer, a water/oxygen barrier layer and a flexible substrate is provided. The touch-sensitive device layer has a first surface and a second surface opposite to the first surface. The water/oxygen barrier layer is formed on the first surface or the second surface or integrated with the touch-sensitive device layer to form a multi-function layer. The flexible substrate can stack with the water/oxygen barrier layer and the touch-sensitive device layer, or stack with the multi-function layer.

Abstract: The present invention relates to a method for manufacturing silicon thin-film solar cells, including: providing a substrate; forming a first electrode on the substrate; forming a first doped semiconductor layer on the first electrode by chemical vapor deposition; forming an intrinsic layer on the first doped semiconductor layer by chemical vapor deposition, where the intrinsic layer includes a plurality of amorphous/nanocrystalline silicon layers, and the intrinsic layer has various energy bandgaps formed by varying average grain sizes of the amorphous/nanocrystalline silicon layers; forming a second doped semiconductor layer on the intrinsic layer by chemical vapor deposition, where one of the first doped semiconductor layer and the second doped semiconductor layer is a p-type amorphous silicon layer and the other is an n-type amorphous/nano-microcrystalline silicon layer; and forming a second electrode on the second doped semiconductor layer.

Abstract: A foldable display and an image processing method thereof are disclosed. The foldable display comprises a display module, a memory, a sensor module, and a processing unit. The sensor module senses a bending state of the display module. The processing unit generates adjusted images according to an image signal, and stores those adjusted images to a plurality of memory addresses of the memory. The processing unit selects a reading address from those memory addresses according the bending state. The processing unit selects a corresponding adjusted image from the memory according to the reading address and outputs the corresponding adjusted image to the display module.

Abstract: A phosphor plate includes a glass layer, a wide-angle reflection dichroic filter and a phosphor layer. The wide-angle reflection dichroic filter is disposed on an exit surface of the glass layer. A first blue light and a second blue light of the incident ray are transmissible through the wide-angle reflection dichroic filter. The phosphor layer is disposed beside the wide-angle reflection dichroic filter. By the phosphor layer, the first blue light is excited as a first green light to be outputted and the second blue light is reflected to the wide-angle reflection dichroic filter. The second blue light and a portion of the first green light outputted from the phosphor layer are reflected by the wide-angle reflection dichroic filter, so that the portion of the first green light is transmitted through the phosphor layer and the second blue light is excited as a second green light by the phosphor layer.

Abstract: An optometric automatic test device and method for a lens are provided to perform image capturing and reading with an image analysis technique, perform automatic focusing by automated control technology rather than by the test worker's operation, and enable two tests, namely refractive power test and astigmatism test, to be performed on eyeglass lenses automatically, so as to greatly reduce the errors caused by the test worker's operation and enhance test efficiency.

Abstract: A deep-UV optical coating preparation method includes the step of putting a high purity metal ingot and a substrate in a sputter chamber and electrically connecting a sputter power supply to the sputter chamber and the step of applying an inertia gas, oxygen and a fluorinated gas to the sputter chamber for causing deposition of a high-refraction fluorine-doped metal oxide film and a low-refraction metal fluoride film to form a deep ultraviolet optical coating having excellent optical and mechanical properties on the substrate.

Abstract: A fluorine-doped tin oxide (FTO) film preparation method includes the step of using a high purity tin ingot in a magnetron sputtering deposition as a target material, the step of applying argon (Ar) as a working gas to generate plasma for removing impurities from the tin target in increasing the purity of the tin target, and the step of applying reactive gases containing F atoms (CF4) and oxygen (O2) for enabling tetrafluoromethane (CF4) to be dissociated by the generated plasma into fluorine ions and excited fluorine atoms for deposition with tin ions from the tin target on a substrate to form a thin film of fluorine-doped tin oxide on the substrate.

Abstract: Disclosed is a miniature, two-dimensional, auto-cloning, polarizing beam splitter that includes a substrate and an optical multilayer. The substrate is formed with a periodic structure. The optical multilayer is formed on the periodic structure of the substrate. The optical multilayer includes a (LH)n structure wherein H represents a film of a high refractive index, and L represents a film of a low refractive index, and n is an integer. The auto-cloning polarizing beam splitter is operable to split infrared light of wavelengths of 1000 nm to 1300 nm.

Abstract: A pixel unit including a first sub-pixel is disclosed. The first sub-pixel includes a first display medium, a second display medium, a first driving device, and a second driving device. The first driving device drives the first display medium. The second driving device drives the second display medium.

Abstract: A human-machine interface device suitable for being electrically connected to an electronic device. The human-machine interface device includes a flexible carrier having at least one flexible portion, a bending sensor, and a control module. The bending sensor is disposed on the flexible portion of the flexible carrier. The control module is disposed on the carrier, connected to the bending sensor, and electrically connected to the electronic device. A first operation signal from the bending sensor is transmitted to the electronic device through the control module so that the electronic device performs according to the first operation signal.