Abstract: A Formula of a phosphorous fire-retardant hardener having fire-retardant and heat-resistant properties as well as a low-dielectric constant. With a preparation of glass-fiber laminated board, the hardener meets UL-94V fire-retardant requirements and has a dielectric constant 5 of 4.0 (1 GHz).

Abstract: A stress measuring device and a stress measuring method for measuring a stress distribution of an object are provided. The stress measuring method includes: receiving a first-dimension image of the object; marking an area of the first-dimension image to generate a marked area; calculating a first stress applied to the marked area and transforming the marked area to a strained marked area corresponding to a second-dimension image to generate a determination result; and calculating the stress distribution corresponding to the first-dimension image of the object according to the determination result.

Abstract: A stretchable electronics generating apparatus and layout method thereof are provided. The layout method includes: establishing a layout database, wherein the layout database recodes a plurality of layout selection information respectively corresponding to a plurality of strain/stress information; detecting a layout target area to obtain a strain/stress distribution status of the layout target area; generating a wire routing information according to the strain/stress distribution status based on the layout database; and transporting the wire routing information to a manufacture device of the conductive wires for disposing a plurality of physical conductive wires on the layout target area by the manufacture device.

Abstract: A transparent display device, a control method thereof and a controller thereof are provided. The transparent display device includes a transparent display, a first sensor set, a second sensor set and a controller. The first sensor set senses user information in a first side. The second sensor set senses scene information in a second side. The controller analyzes and determines a location and a gaze direction of a user according to the user information, calculates a first fixation point in the scene information and a second fixation point on the transparent display according to the location and the gaze direction of the user, determines a target object corresponding to the first fixation point according to the scene information, inquires target object information corresponding to the target object, and presents the target object information according to the second fixation point by the transparent display.

Abstract: This invention provides a new dicyclopentadiene phenol and 2,6-dimethyl phenol copolymer epoxy resin with excellent heat resistance, low dielectric constant Dk, low dissipation factor Df having the formula 1. Preparation of dicyclopentadiene phenol and 2,6-dimethyl phenol copolymer epoxy resin in two steps: Step 1, reacting (a1) dicyclopentadiene phenol resin represented by formula 2 with (a2) 2,6-dimethyl phenol in the presence of acid catalyst by (a3) aldehyde compounds to synthesize dicyclopentadiene phenol-2,6-dimethyl phenol copolymer, and Step 2, reacting dicyclopentadiene phenol and 2,6-dimethyl phenol copolymer with excess epichlorhydrin under NaOH condition to prepare dicyclopentadiene phenol and 2,6-dimethyl phenol copolymer epoxy resin.

Abstract: A transparent display system including a display panel, a data acquisition module and a computation module is provided. The data acquisition is adapted to capture a field luminance of a field where the display panel is located and a display information luminance of display information of the display panel. The computation module determines whether a luminance contrast of the display information falls within a range from a lower boundary to an upper boundary, wherein the luminance contrast of the display information equals to the field luminance plus the display information luminance and then divided by the field luminance. If it is determined that the luminance contrast of the display information does not fall within the range from the lower boundary to the upper boundary, a luminance contrast optimization procedure is performed. An operation method of the transparent display system is also provided.

Abstract: A low dielectric constant (Dk) and dissipation factor (Df) of solder resistant mask composition comprising (A) a photopolymerizable prepolymer of formula (1); (B) a photopolymerizable vinyl monomer; (C) an epoxy compound; (D) a photopolymerization initiator; (E) an inorganic filler; (F) a catalyst; and (G) an organic solvent. The low dielectric constant (Dk) and dissipation factor (Df) of solder resistant mask composition has excellent photo and thermocurability, and high developability resolution with an alkaline aqueous solution, wherein the dielectric constant is below 3.20 (1 GHz), and the dissipation factor is less than 0.

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: A physiological signal correction device, a correction method, and a wearable device with a correction function are provided. The physiological signal correction device includes a physiological signal sensor, a warping sensor, and a signal processing device. The physiological signal sensor is attached to an object to be detected to obtain a physiological signal value from at least one sensing electrode. The warping sensor is disposed on the physiological signal sensor and detects whether a warping condition of the physiological signal sensor with respect to the object to be detected occurs. The signal processing device corrects the physiological signal value provided by the physiological signal sensor according to the warping condition. The warping condition is caused by a distance between a part of the sensing electrode and the object to be detected or a change in a contact area between a part of the sensing electrode and the object to be detected.

Abstract: A method for driving a dual-media display panel includes the following. Display data is obtained. A first driving signal for driving a transparent display panel of the dual-media display panel is generated in response to the display data. A display-unit grayscale value for the display data is obtained. The display-unit grayscale value is determined whether it falls within a grayscale value interval. When the display-unit grayscale value is less than a lower limit of the grayscale value interval, a driving signal adapted to enabling the light-shielding display panel to display a black color is used as the second driving signal. When the display-unit grayscale value is greater than an upper limit of the grayscale value interval, a driving signal adapted to enabling the light-shielding display panel to display a white color is used as the second driving signal.

Abstract: A method for driving a dual-media display panel includes the following. Display data is obtained. A first driving signal for driving a transparent display panel of the dual-media display panel is generated in response to the display data. A display-unit grayscale value for the display data is obtained. The display-unit grayscale value is determined whether it falls within a grayscale value interval. When the display-unit grayscale value is less than a lower limit of the grayscale value interval, a driving signal adapted to enabling the light-shielding display panel to display a black color is used as the second driving signal. When the display-unit grayscale value is greater than an upper limit of the grayscale value interval, a driving signal adapted to enabling the light-shielding display panel to display a white color is used as the second driving signal.

Abstract: A photoelectric device package including a substrate, a first circuit layer, a carrier structure, a second circuit layer, at least one photoelectric device, and a first encapsulation layer is provided. The first circuit layer is disposed on the substrate. The carrier structure is disposed on the substrate and covers the first circuit layer. The carrier structure includes a first dielectric layer, a second dielectric layer, and an elastic layer disposed between the first dielectric layer and the second dielectric layer. The Young's modulus of the elastic layer is less than the Young's modulus of the first dielectric layer and the second dielectric layer. The second circuit layer is disposed on the carrier structure. The photoelectric device is disposed on the carrier structure and is electrically connected to the first and second circuit layers. The first encapsulation layer is disposed on the carrier structure and encapsulates the photoelectric device.

Abstract: A Formula of a phosphorous fire-retardant hardener having fire-retardant and heat-resistant properties as well as a low-dielectric constant. With a preparation of glass-fiber laminated board, the hardener meets UL-94V fire-retardant requirements and has a dielectric constant 5 of 4.0 (1 GHz).

Abstract: A method for manufacturing a wireless charging device is disclosed. The method includes: providing a substrate, a first metal plate, and a second metal plate; forming a plurality of circles of slots, each of the circles of slots including at least one first slot and at least one second slot, the at least one first slot having a first depth, and the at least one second slot having a second depth; forming a first coil and a second coil by performing a metal forming process on the first metal plate and the second metal plate; and placing the first coil in the at least one first slot, and placing the second coil in the at least one second slot. In the method, the first coil and the second coil have good fixity and are easily to be assembled.

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: Described herein are genetically-modified microorganisms for producing medium chain lauric acid and/or dodecanedioic acid and methods of using the microorganisms. The microorganisms contain a nucleic acid encoding an Umbellularia californica lauroyl ACP-thioesterase (BTE) operably linked to a promoter.

Abstract: A flexible electronic device including a first flexible substrate, an electronic component, and a control device is provided. The electronic component includes a conductive layer. The control device includes at least one integrated circuit and a circuit layer set. The circuit layer set includes a plurality of circuit layers and at least one first dielectric layer, and at least a portion of the first dielectric layer is interposed between two adjacent circuit layers. The integrated circuit is electrically connected to the electronic component through the circuit layer set and the conductive layer. At least a portion of the conductive layer and at least a portion of one circuit layer are integrally formed, and the conductive layer and the circuit layer are both disposed on the first flexible substrate. A fabricating method of a flexible electronic device is also provided.

Abstract: A photoelectric device package including a substrate, a first circuit layer, a carrier structure, a second circuit layer, at least one photoelectric device, and a first encapsulation layer is provided. The first circuit layer is disposed on the substrate. The carrier structure is disposed on the substrate and covers the first circuit layer. The carrier structure includes a first dielectric layer, a second dielectric layer, and an elastic layer disposed between the first dielectric layer and the second dielectric layer. The Young's modulus of the elastic layer is less than the Young's modulus of the first dielectric layer and the second dielectric layer. The second circuit layer is disposed on the carrier structure. The photoelectric device is disposed on the carrier structure and is electrically connected to the first and second circuit layers. The first encapsulation layer is disposed on the carrier structure and encapsulates the photoelectric device.

Abstract: The invention provides a polyphenylene ether modified phenol-benzaldehyde multifunctional epoxy resin with formula (I) wherein A is: PPE are: Z are: Y are: Their manufactured is following steps: polyphenylene ether 100 parts is dissolved in solvent, then phenol-benzaldehyde multifunctional epoxy resin 100˜450 parts and catalyst 0.01˜5 parts are added, stirred and mixed at 90˜180, for 1˜4 hour, to obtain formula (I) solution. Said product is formulated with compositions for laminate, having excellent electrical properties and heat resistance. The dielectric constant is 4.03(1 GHz), dissipation factor is 0.0046(1 GHz) and no delamination longer than 60 minutes dipping in 288 soldering test after 2 hours pressure cooking test. Application is insulating materials for highly reliable electronic components such as EMC, PCB substrates, laminate and insulating plates.

Abstract: A chip package structure and a manufacturing method thereof are provided. The chip package structure includes a frame disposed around a chip, a filling material filled in the space between the chip and the frame, and a protection layer covering the chip, the frame, and the filling material. The Young's modulus of the filling material is respectively smaller than the Young's modulus of the chip, the Young's modulus of the frame, and the Young's modulus of the protection layer.