Abstract: A colored solar cell device includes: a solar cell module; a transparent adhesive layer; and a color filter attached to the solar cell module through the transparent adhesive layer and including a transparent filter substrate and a wavelength-selective reflecting film that is formed on the transparent filter substrate, that contacts the transparent adhesive layer and that includes at least one first dielectric layer made from a material selected from the group consisting of TiO2, Nb2O3, ZnS, and ZrO2. The first dielectric layer has a thickness ranging from 1 nm to 300 nm. The transparent filter substrate has a refractive index n0. The first dielectric layer has a refractive index n1 greater than n0.

Abstract: A resistive touch control device and driving methods and a driving controller thereof are provided to switch operation modes of a touch panel. Depending on the user's requirement, the touch panel can be operated in multi-touch mode or only in an analog mode with high resolution. In other words, the touch control device can be operated in a digital mode, the analog mode, or a hybrid mode including both of the digital and the analog modes.

Abstract: A touch panel including a first transparent substrate, a second transparent substrate, first conductive patterns, first electrodes, second conductive patterns, second electrodes, and spacers is provided. The first conductive patterns are disposed on the first transparent substrate, and extend along a first direction. The first electrodes are disposed at the two ends of the first conductive patterns in the first direction. The second conductive patterns are disposed on the second substrate, and extend along a second direction intersecting the first direction. The second electrodes are disposed at the two ends of the second conductive patterns in the second direction. The abovementioned conductive patterns are located between the first substrate and the second substrate, and the projections of the conductive patterns to the first transparent substrate are partially overlapped to form sensing blocks. The spacers are disposed between the first conductive patterns and the second conductive patterns to form a gap.

Abstract: The present invention discloses a laser-scribing method to make a bifacial thin film solar cell and the structure thereof. The laser-scribing method is to form scribing patterns that penetrate different structural layers during the process of forming various structural layers. After the laser-scribing, the top solar cell unit is attached with the bottom solar cell unit by various combining steps to form a solar cell assembly. The solar cell assembly can receive light from both sides via the absorber layers of both of the top solar cell unit and the bottom solar cell unit. The solar cell assembly has an increased output efficiency and a greater power density and the cost of the manufacturing is therefore reduced.

Abstract: A resistive touch control device and driving methods and a driving controller thereof are provided to switch operation modes of a touch panel. Depending on the user's requirement, the touch panel can be operated in multi-touch mode or only in an analog mode with high resolution. In other words, the touch control device can be operated in a digital mode, the analog mode, or a hybrid mode including both of the digital and the analog modes.

Abstract: A resistive touch panel with multi-touch recognition ability comprises: a top substrate, configured with at least two conductive electrodes; a bottom substrate, being integrated with the top substrate at a surface where the at least two conductive electrodes are formed; and an insulating layer, sandwiched between the top and the bottom substrates; wherein the bottom substrate is configured with four conductive electrodes to be used for forming two electric fields, one varying along an X-axis direction on a plane defined by a Cartesian coordinate system while enabling the other one to vary along a Y-axis direction of the same. With the aforesaid device, when there are multiple touches contact the top substrate at the same time, voltage variations relating to those touches can be detected from the bottom substrate for identifying the location of those touches and thus enabling the resistive touch panel with multi-touch recognition ability.

Abstract: A touch panel includes a first substrate, a first electrode layer, a second substrate, a second electrode layer and an extrinsic spacing layer. The first electrode layer is disposed on the first substrate, and the second substrate is parallel to the first substrate. The second electrode layer is disposed on the second substrate, and the first electrode layer and the second electrode layer are located between the first substrate and the second substrate. In addition, the extrinsic spacing layer is located between the first electrode layer and the second electrode layer, wherein a plurality of conductive particles is scattered in the extrinsic spacing layer.

Abstract: A touch panel including a first transparent substrate, a second transparent substrate, first conductive patterns, first electrodes, second conductive patterns, second electrodes, and spacers is provided. The first conductive patterns are disposed on the first transparent substrate, and extend along a first direction. The first electrodes are disposed at the two ends of the first conductive patterns in the first direction. The second conductive patterns are disposed on the second substrate, and extend along a second direction intersecting the first direction. The second electrodes are disposed at the two ends of the second conductive patterns in the second direction. The abovementioned conductive patterns are located between the first substrate and the second substrate, and the projections of the conductive patterns to the first transparent substrate are partially overlapped to form sensing blocks. The spacers are disposed between the first conductive patterns and the second conductive patterns to form a gap.

Abstract: The present invention relates to an organic electroluminescent device with a light-emitting layer, the light-emitting layer comprising a photo-crosslinkable conductive polymeric host material suitable for facilitating full-color display by spin coating; and at least one small-molecule light-emitting material to achieve high power efficiency. The color-purity of device of the present invention is independent of the distribution of molecular weight of the polymer in the light-emitting layer.

Abstract: An integrated color filter includes a substrate with a black matrix thereon to define a plurality of sub pixels on a surface thereof. A plurality of color filter units disposed in the sub pixels respectively, which are made of pigment doping organic material. The organic material is fluorescence or phosphorescence organic material to provide the image of the display with well saturation and luminance.

Abstract: An electro-luminescence device has an anode and a cathode, between which a hole transporting layer, an emitting layer and a hole insulating layer are provided. The emitting layer is made of a material including a light emitting material of polymer doped with two light emitting materials of molecule. A method of making the electro-luminescence applies the wet process to make the hole insulating layer and the emitting layer to simplify the steps and to control the factors of fabrication.

Abstract: An apparatus and method of employing self-assembled molecules to function as an electron injection layer of organic light emitting diodes (OLEDs) uses self-assembled molecules to function as an electron injection layer. A dipolar self-assembled molecules film is formed on a cathode metal layer to serve the electron injection layer. The self-assembled molecules have dipolar properties. The doner and the cathode metal layer form a key bond. The resulting dipolar direction formed in the self-assembled molecules can increase electron injection efficiency, thereby increase light emitting efficiency of OLED elements and reduce the threshold voltage of the OLED elements.

Abstract: A method for purification through sublimation includes a step of compressing a powdered object to be purified in a tight and compact manner such as granules or cakes under a preset pressure, temperature and time for containing a greater amount of substances in a unit volume so that the object to be purified has an improved heat transfer efficiency and heating power is more stable. During sublimation process a flowing inertia gas is channeled to carry the sublimated and purified substances so that the purified substance flow in the same direction for depositing.

Abstract: An apparatus and method of employing self-assembled molecules to function as an electron injection layer of organic light emitting diodes (OLEDs) uses self-assembled molecules to function as an electron injection layer. A dipolar self-assembled molecules film is formed on a cathode metal layer to serve the electron injection layer. The self-assembled molecules have dipolar properties. The doner and the cathode metal layer form a key bond. The resulting dipolar direction formed in the self-assembled molecules can increase electron injection efficiency, thereby increase light emitting efficiency of OLED elements and reduce the threshold voltage of the OLED elements.

Abstract: The present invention discloses an improved evaporation method compressing an evaporation material from power into compressed particles or tablets at a predetermined pressure, temperature, and time; since the compressed evaporation material being consistent in crystallization property is more even and denser than powder, therefore the efficiency of the thermal conductivity becomes higher and the efficiency of heating more stable.

Abstract: A method for purification through sublimation includes a step of compressing a powdered object to be purified in a tight and compact manner such as granules or cakes under a preset pressure, temperature and time for containing a greater amount of substances in a unit volume so that the object to be purified has an improved heat transfer efficiency and heating power is more stable. During sublimation process a flowing inertia gas is channeled to carry the sublimated and purified substances so that the purified substance flow in the same direction for depositing.

Abstract: A manufacturing method for increasing the readable contrast of an organic light emitting diode (OLED) darkens the color scale by means of an insulating layer of the OLED to reduce the interference generated by the cathode reflection during the incidence of light source on the OLED. The technology of the present invention primarily mixes the insulating materials and additives to make a black layer material and coat such black layer material on the conductive substrate to darken the color scale of the insulating layer and then perform a yellow light process and an etching process to form the insulating layer, so that the partition of each etch area shows a dark color after the insulating layer is etched, and each etched area shows its own pixels, and thus achieving the effect of increasing the readable contrast of the OLED under strong light.

Abstract: An organic electroluminescent device includes an emitting layer comprising AxByCz inserted between the anode and the cathode. The emitting layer with different materials is a continuously mixed single layer in the organic electroluminescent device without heterojunctions. Moreover, a transporting auxiliary comprising LiF alone or a mixture comprising the hole transporting material, the electron transporting material AxBy and a % wt is inserted between the emitting layer and the cathode electrode.

Abstract: A double-side display structure for an organic light emitting diode (OLED) and a method of manufacturing the same includes: plating an organic layer on an OLED element by vaporization; plating an organic protection layer on the organic layer to protect various organic layers from being damaged by electron bombardment during the OLED element subject to ITO sputtering in the later processing; plating an electron injecting layer and a thin metal film of a mating energy level on the organic protection layer; and plating a transparent conductive film on the electron injecting layer and the thin metal film to increase conductivity and protect the thin metal film from corrosion.

Abstract: The present invention relates to an organic electroluminescent device including an emitting layer comprising AxByCz inserted between the anode and the cathode. The emitting layer with different materials is a continuously mixed single layer organic electroluminescent device without heterojunctions. Moreover, a transporting auxiliary layer comprising of LiF alone or a mixture comprising the hole transporting material, the electron transporting material AxBy and a% wt of LiF inserted between the emitting layer and cathode electrode.