Feng Chia University Patent applications |
Patent application number | Title | Published |
20150124392 | Combinational Cooling Pad Structure with Flash Drive Storage - A combinational cooling pad structure with flash drive storage comprises a cooling pad and a flash drive. The cooling pad comprises at least three combinational pads with structural surfaces. At least two connecting portions are correspondingly disposed between the combinational pads. Limiting structures are correspondingly disposed on outer sides of the outer combinational pads. The combinational pads are connected by the connecting portions to form a structure which can be unfolded flatly; and are folded closely together to form a structural body surrounded by the structural surfaces; and are combined securely by the corresponding limiting structures. An inner hole for inserting the flash drive is defined and formed by inner surfaces of the surrounding combinational pads. A coupling portion is protrudingly disposed at an end of the flash drive, and an interface connector is disposed on the coupling portion. The coupling portion is then inserted into the inner hole. | 05-07-2015 |
20150062776 | SUPERCAPACITOR WITH A CORE-SHELL ELECTRODE - A supercapacitor includes a pair of electrodes and an electrolyte. Each electrode has a graphite fiber core, and an activated carbon shell atomically coated on an outer surface of the core. The electrolyte is mounted between the two electrodes and in touch with each shell for electrical connection of the two electrodes. | 03-05-2015 |
20140363483 | PHARMACEUTICAL USE OF A COMPOSITION INCLUDING A CARBONACEOUS MATERIAL AND AN ACTIVE PARTICLE - A method of treating or preventing | 12-11-2014 |
20140213675 | BIOPOLYMERIC MATERIAL INCLUDING MODIFIED NATURAL FIBRES AND THE METHOD FOR MANUFACTURING THE SAME - A method for producing a biopolymeric material includes milling a non-edible vegetable fiber into a fiber grain; mixing the fiber grain with a solvent to form a slurry; purifying the fiber grain of the slurry to form a purified fiber; esterifying the purified fiber to form an esterified fiber; drying the esterified fiber to form a modified fiber; and mixing the modified fiber with a plastic material to form the biopolymeric material. | 07-31-2014 |
20140110397 | Flexible Electrical Heating Element and Manufacturing Method Thereof - This invention proposes a flexible electrical heating element comprising a substrate, a metal interlayer coating and a far-infrared emissive carbon film. The flexible electrical heating element utilizes a low-cost and environmental friendly vacuum coating technique to deposit the metal interlayer coating and the far-infrared emissive carbon film on the flexible and insulating substrate which can provide uniform heating, and the far-infrared emissive carbon film can emit far-infrared. | 04-24-2014 |
20140098965 | METHOD FOR MEASURING ELECTROACOUSTIC PARAMETERS OF TRANSDUCER - A method discloses measuring electroacoustic parameters of transducer. With known voice-coil displacement, voice-coil current, transducer impedance and its stimulus signal as inputs, the five calculation procedures of direct problem, adjoint problem, sensitivity problem, conjugate gradient method, and constraint equations are involved in inversely solving electroacoustic parameters. The presented method has the characteristics of high efficiently, low iterations for computational algorithm, and high accuracy for electroacoustic parameters estimation. Through the numerical result and discussion, the relative errors between estimated and accurate electroacoustic parameters are sufficiently small even with the inclusion of the inevitable measurement errors. These results indicate that the presented method has high feasibility for estimating electroacoustic parameters of a transducer. | 04-10-2014 |
20140038209 | Apparatus and Methodology to Carry Out Biochemical Testing on a Centrifugal Platform Using Flow Splitting Technique - The invention provides an apparatus and methodology to carry out biochemical testing on a centrifugal platform using flow splitting technique. In conventional biochemical testing, reagents need to be loaded individually into each reservoir. By using the flow splitting technique in this invention, one reagent only need to be loaded once, then, it can be evenly distributed into each reaction chambers in single or multiple layers format. The invention greatly reduces the required manpower when large numbers of assays are integrated on one platform. Because of the invention, many medical examinations can be performed efficiently, thus reduce the waste of manpower, time and cost. | 02-06-2014 |
20130328067 | LED MODULE - An LED module includes a silicone substrate, an LED grain mounted on a face of the silicone substrate, a temperature sensor formed under the LED grain, a luminous sensor formed close to the LED grain and an encapsulation gel enclosing the LED grain, wherein the LED grain, the luminous sensor and the temperature sensor are electrically connected to electrodes for connection to foreign devices. | 12-12-2013 |
20130314941 | CHRONOGICAL ENERGY SAVING COLOR SEPARATE SYSTEM - A time sequence energy saving color splitting system includes at least one light source provided on a surface of the guide module and composed of multiple light illuminating elements capable of illuminating light beams with different wavelengths and arranged in array, the at least one light source being able to illuminate light beams with specific wavelengths in two time sequences and entering the guide module and a color splitting module provided on the guide module, comprised of a first surface and a second surface, wherein the first surface is a collar structure per unit cycle and the second surface is a non-spherical structure per unit cycle, the non-spherical structure per unit cycle corresponds to the collar structure every two unit cycles. | 11-28-2013 |
20130292631 | Multi-Layered Phase-Change Memory Device - The invention discloses a phase-change memory device structure and the materials used. The structure includes a substrate; a single or multiple sandwich-memory-unit(s); a first and a second electrode electrically connecting to the first and the second sides of the sandwich-memory-units and a dielectric layer used as the insulator required by the memory device. The sandwich-memory-unit composes of a memory-layer, thinner than 30 nm, sandwiched between an upper and a lower barrier-layers. The barrier-layer is either an electrical conductor in case of vertical memory-cells or an electrical insulator in case of parallel memory-cells. The sandwich-memory-unit is characteristic of increased crystallization temperature of at least 50° C. as the thickness of the memory-layer is reduced from 15 to 5 nm; and the volume change of the memory-layer is less than 3% during phase change. The thickness and memory-material in each sandwich-memory-unit can be different in the multiple sandwich-memory-units. | 11-07-2013 |
20130237933 | TAMPON STRUCTURE - The present invention relates to a tampon structure, the tampon structure comprise at least one absorbent carbonaceous base with at least two precious metals, an absorber, a surface layer, and a rope. The copper ions and silver ions can be released by the at least two precious metals in aqueous solution to reach the health effects of the female vagina. | 09-12-2013 |
20130157319 | Method for Simultaneous Fermentation of Pentose and Hexose - The present invention relates to a method for simultaneous fermentation of pentose and hexose. The present invention modifies the metabolic pathways of a target microorganism in order to enable the target microorganism to rapidly metabolize pentose and hexose at the same time. This present invention simplified the fermentation process, decreased the cost, and increased the efficiency of the fermentation process. | 06-20-2013 |
20130083452 | SUPER CAPACITOR STRUCTURE AND THE MANUFACTURE THEREOF - Disclosed is a super capacitor and method of manufacture thereof. This invention relates to a solid state super capacitor comprising a solid state polymer electrolyte and a modified carbonaceous electrode. Said modified carbonaceous electrode comprises a conductive carbonaceous material covered with active ingredients. Said modified carbonaceous electrode and said solid state polymer electrolyte are layered on top of each other to form a sandwich-like structure. Said super capacitor performs much better than known super capacitor comprising liquid or gel-form electrolytes. Said super capacitor has higher conductivity, therefore can be manufactured without a current collector. Since said super capacitor contains solid state polymer electrolyte, the method of manufacturing said super capacitor is more environmentally friendly and has a higher safety level. | 04-04-2013 |
20110155992 | PHASE-SEPARATION TYPE PHASE-CHANGE MEMORY - A eutectic memory includes a eutectic memory material layer, a top and a bottom electrodes, or a left and a right electrodes. Materials of the eutectic memory layer are represented by M | 06-30-2011 |
20110125064 | SMART CLOTHING FOR MOTION PHYSIOLOGICAL MEASUREMENT AND DYNAMICAL STABLE APPARATUS THEREOF - A dynamical stable apparatus of a smart clothing for motion physiological measurement includes at least one physiological sensing module. The physiological sensing module includes a carrier, at least one physiological sensor and a first tension adjusting component. The carrier has a surface for contacting with a body of a user, and the surface is coated with a slide resistant material. The physiological sensor is disposed on the surface of the carrier and configured for measuring a motion physiological signal of the user. The first tension adjusting component is disposed on two opposite ends of the carrier and configured for adjusting a tension of the carrier so as to fix the carrier on the body of the user. When the user wears the smart clothing for motion physiological measurement to measure a motion physiological signal, a stable motion physiological signal can be obtained. | 05-26-2011 |
20100239854 | METALLIC MATERIAL COATED WITH CARBON FILM - A metallic material coated with a carbon film is provided. The coated metallic material comprises a metal substrate and a carbon film, wherein the carbon film includes an amorphous phase and a graphite-like phase, and in some embodiments an extra diffusion layer onto the metal substrate underneath the carbon film. The carbon film can be a single layer comprising of two carbon phases, amorphous carbon as the matrix and embedded graphite-like granules. The carbon film can also be multilayers with alternate amorphous carbon film and graphite-like carbon film. | 09-23-2010 |
20100237527 | METHOD FOR PRODUCING A BIO-BASED POLYMERIC SHOE COMPONENT - A method for producing a bio-based polymeric shoe component includes: preparing a blend from a composition including 5˜50 weight parts of a modified starch, 50˜95 weight parts of an ethylene vinyl acetate copolymer, 5˜30 weight parts of a filler, 1˜50 weight parts of a polyolefin, 2.0˜8.0 weight parts of a foaming agent, 0.5˜3.0 weight parts of a foaming aid, 0.5˜2.0 weight parts of a lubricant, and 0.4˜1.2 weight parts of a crosslinking agent, the modified starch being obtained by hydrolyzing and esterifying a predetermined amount of a raw starch to form a hydrolyzed and esterified starch, followed by drying the hydrolyzed and esterified starch; processing the blend into a foamable product; and forming the foamable product into the shoe component. | 09-23-2010 |
20100209823 | POROUS CARBONIZED SUBSTRATE, ITS PREPARATION METHOD AND USES - A porous carbonized substrate and its preparation method and uses are provided. The porous carbonized substrate has an oxygen content ranging from about 1 wt % to about 13 wt % and a nitrogen content ranging from about 2 wt % to about 16 wt %, based on the total weight of the substrate. The porous carbonized substrate can be prepared by a method comprising the following steps: providing a fiber substrate containing one or more oxidized fibers, one or more polyamide fibers or a mixture thereof; and thermally treating the fiber substrate under an inert gas atmosphere, wherein the thermally treating step comprises putting the fiber substrate in the inert gas atmosphere and increasing the temperature of the inert gas atmosphere to an elevated temperature ranging from about 700° C. to about 2000° C. with a rate of from about 50° C./minute to about 300° C./minute. The porous carbonized substrate is used as a gas diffusion layer of a fuel cell. | 08-19-2010 |
20100112206 | METHOD FOR MAKING CARBON FABRIC AND PRODUCT THEREOF - A carbon fabric of high conductivity and high density is formed of oxidized fibers of polypropylene. The oxidized fibers have a carbon content at least 50 wt %, an oxygen content at least 4 wt %, and a limiting oxygen index at least 35%. The carbon fabric is made by preparing a raw fabric obtained from oxidized fibers of polypropylene by weaving and then carbonizing the raw fabric. | 05-06-2010 |
20090271130 | METHOD FOR MEASURING SUSPENDED SEDIMENT CONCENTRATION IN WATER - A method for measuring suspended sediment concentration (SSC) in water includes the steps of: placing a vibrating-type SSC measuring probe in a target water body whose SSC is to be measured, and causing the SSC measuring probe to vibrate; measuring a vibratory signal resulting from the vibration of the SSC measuring probe, and obtaining a vibration response of the SSC measuring probe according to the vibratory signal; and obtaining the SSC of the target water body based upon the vibration response and a pre-established relationship between vibration responses of the SSC measuring probe to various known SSCs. | 10-29-2009 |
20090061275 | Carbonized Paper With High Strength And Its Preparation Method And Uses - Strengthened carbonized paper, its preparation method and uses are provided. The carbonized paper comprises a mixed spun fabric containing oxidized fibers and polyamide fibers as the reinforced material. The carbonized paper has good tensile strength and electric conductivity. The carbonized paper can be used as the gas diffusion layer material in the fuel cell for better performance. Moreover, the carbonized paper of the subject invention is useful as the anti-electromagnetic material and reinforced composite material. | 03-05-2009 |
20090011673 | Porous carbonized fabric with high efficiency and its preparation method and uses - A porous carbonized fabric with high efficiency and its preparation method and uses are provided. The carbonized fabric is prepared from a mixed spun fabric containing an oxidized fiber and a polyamide fiber. The carbonized fabric has excellent gas permeability, high porosity, and good electric conductivity. The carbonized fabric can be used as the gas diffusion layer (electrode) material in a fuel cell. The fuel cell can provide a relatively high power density. Moreover, the carbonized fabric is useful as an anti-electromagnetic material and a reinforced composite material. | 01-08-2009 |
20080280067 | Method of forming a carbon film on a metal substrate at a low temperature - A method of forming a carbon film on a metal substrate at a low temperature has steps of preparing a metal substrate having a softening temperature; forming a catalytic layer having a thickness of greater than 0.01 μm on the metal substrate, and forming a carbon film on the catalytic layer by chemical vapor deposition (CVD) at a reaction temperature less than the softening temperature of the metal substrate. A carbonaceous material is carried into a CVD reaction area by a carrier gas and is thermally decomposed at a reaction temperature between 300° C. and 1000° C. to form the carbon film having a thickness between 0.1 μm and 10 μm on the catalytic layer. | 11-13-2008 |
20080220162 | Method for manufacturing metal-carrying carbonaceous material - A method for manufacturing a metal-carrying carbonaceous material is provided. The method comprises immersing a carbonaceous material in a metal-containing aqueous solution under vacuum, with stirring, and/or in the presence of a polar solvent, and then thermally treating the immersed carbonaceous material at a temperature ranging from 120° C. up to a temperature not higher than the melting point of the involved metal under vacuum or in the presence of a protective gas. According to the method, the metal can be effectively carried on a carbonaceous material so as to enhance the applicability of the metal-carrying carbonaceous material. | 09-11-2008 |