Patent application number | Description | Published |
20120104383 | SEMICONDUCTOR DEVICE HAVING ZINC OXIDE THIN FILM AND MANUFACTURING METHOD THEREOF - A semiconductor device includes a ZnO thin film. The semiconductor device comprises a substrate and a ZnO thin film. The ZnO thin film includes at least two zones with different carrier types. The current invention also discloses a manufacturing method of a semiconductor device having ZnO thin film. A ZnO thin film doped with dopant is deposited on a substrate. Thereafter, a laser irradiates on the ZnO thin film to activate the dopant in the irradiated zone of the ZnO thin film to change the carrier type. | 05-03-2012 |
20120292084 | FLEXIBLE BASE MATERIAL AND FLEXIBLE ELECTRONIC DEVICE - The invention provides a flexible base material and a flexible electronic device. The flexible base material includes a flexible substrate having a first surface and a second surface opposite to the first surface. A first organic composite barrier layer is deposited on the first surface of the flexible substrate, wherein the first organic composite barrier layer applies a first stress to the flexible substrate. An anti-curved layer is deposited on the second surface of the flexible substrate, wherein the anti-curved layer applies a second stress, which is cancelled off more than 90% of the first stress, to the flexible substrate. | 11-22-2012 |
20130089667 | EVAPORATION APPARATUS AND METHOD OF FORMING ORGANIC FILM - An evaporation apparatus proposed includes a gas storage chamber, a first evaporator, a pressure gauge, a pyrolysis chamber and a deposition chamber. The first evaporator is connected with the gas storage chamber through a first pipe and the first pipe has a first valve. The pressure gauge is connected with the gas storage chamber through a second pipe. The pyrolysis chamber is connected with the gas storage chamber through a third pipe and the third pipe has a second valve. The deposition chamber is connected with the pyrolysis chamber through a fourth pipe. | 04-11-2013 |
20130126924 | LIGHT-EMITTING DIODE ELEMENT, METHOD FOR MANUFACTURING LIGHT GUIDE STRUCTURE THEREOF AND EQUIPMENT FOR FORMING THE SAME - A light-emitting diode (LED) element is provided. The LED element includes a substrate, a diode structure layer and several light-guide structures. The light-guide structures are formed on at least one of the substrate and the diode structure layer. Each light-guide structure has an inner sidewall, and several spiral slits formed on the inner side wall. | 05-23-2013 |
20130297086 | POWER-SAVING CONTROLLING METHOD AND SYSTEM THEREOF - A power-saving controlling method includes steps as follows. An electrical information is captured from an electrical equipment by an intelligent socket device. The electrical information is calculated and a rule table is generated. An automatic controlling signal is generated according to the rule table. The intelligent socket device is switched off or switched on according to the automatic controlling signal. | 11-07-2013 |
20130298833 | EVAPORATION APPARATUS - An evaporation apparatus proposed includes a gas storage chamber, a first evaporator, a pressure gauge, a pyrolysis chamber and a deposition chamber. The first evaporator is connected with the gas storage chamber through a first pipe and the first pipe has a first valve. The pressure gauge is connected with the gas storage chamber through a second pipe. The pyrolysis chamber is connected with the gas storage chamber through a third pipe and the third pipe has a second valve, wherein the first evaporator is connected with the pyrolysis chamber through the gas storage chamber, and the gas storage chamber is disposed between the first evaporator and the pyrolysis chamber. The deposition chamber is connected with the pyrolysis chamber through a fourth pipe. | 11-14-2013 |
20140054803 | COMPOUND BARRIER LAYER, METHOD FOR FORMING THE SAME AND PACKAGE STRUCTURE USING THE SAME - An embodiment of the invention provides a compound barrier layer, including: a first barrier layer disposed on a substrate; and a second barrier layer disposed on the first barrier layer, wherein the first barrier layer and second barrier layer both include a plurality of alternately arranged inorganic material regions and organo-silicon material regions and the inorganic material regions and the organo-silicon material regions of the first barrier layer and second barrier layer are alternatively stacked vertically. | 02-27-2014 |
20140144382 | PLASMA APPARATUS - A plasma apparatus including a chamber, an electrode set and a gas supplying tube set is provided. The chamber has a supporting table. The gas supplying tube set is disposed in the chamber and located between the supporting table and the electrode set. The gas supplying tube set includes at least one outer gas supplying tube and at least one first inner gas supplying tube. The first inner gas supplying tube is telescoped within the outer gas supplying tube. The outer gas supplying tube and the first inner gas supplying tube both have a plurality of gas apertures, and an amount of the gas apertures of the outer gas supplying tube is greater than an amount of the gas apertures of the first inner gas supplying tube. | 05-29-2014 |
20140162054 | INTERPOSER LAYER FOR ENHANCING ADHESIVE ATTRACTION OF POLY(P-XYLYLENE) FILM TO SUBSTRATE - An embodiment of the present disclosure provides a laminate structure, including a substrate having a surface; a poly(p-xylylene) film over the surface of the substrate; and an interposer layer between the substrate and the poly(p-xylylene) film. The interposer layer is bonded to both the substrate and the poly(p-xylylene) film in a covalent manner, and a ratio of Si—C bonds and Si—X bonds in the interposer layer is in a range from about 0.3 to about 0.8, wherein X is O or N. | 06-12-2014 |
20140168778 | COMPOSITE GRADED REFRACTIVE INDEX LAYER STRUCTURES AND ENCAPSULATION STRUCTURES COMPRISING THE SAME - In an embodiment of the present disclosure, a composite graded refractive index layer structure is provided. The composite graded refractive index layer structure includes a substrate and a composite graded refractive index layer with varying compositions of zinc oxide and silicon oxide formed on the substrate, wherein the composite graded refractive index layer has a first surface where light penetrates thereinto and a second surface where light exits therefrom, and the composite graded refractive index layer has refractive index values which reduce from the first surface to the second surface. The present disclosure also provides an encapsulation structure including the composite graded refractive index layer structure. | 06-19-2014 |