Ching-Ling
Ching-Ling Chen, Hsinchu TW
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20090114239 | Eyelash brush - The present invention provides an eyelash brush including a flexible body and a rigid body. The flexible body has a plurality of rows of soft brushes, and the rigid body is installed on a lateral side of the flexible body, and the rigid body has at least one row of hard combs. | 05-07-2009 |
Ching-Ling Chen, Kaohsiung City TW
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20130318863 | CORE-SHELL MAGNETIC COMPOSITE AND APPLICATION ON PRODUCING BIODIESEL USING THE SAME - A core-shell magnetic composite is disclosed, which includes: a magnetic core; a shell containing a protective layer and a porous layer, wherein the protective layer is coated on a surface of the magnetic core and the porous layer is the outmost layer of the shell; and a hydrophobic functional group grafted to the shell. In addition, the core-shell magnetic composite can be bound to a lipase to act as a transesterification catalyst. The present invention also relates to a method for producing biodiesel. | 12-05-2013 |
Ching-Ling Lin, Kaohsiung City TW
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20130049141 | METAL GATE STRUCTURE AND FABRICATION METHOD THEREOF - A metal gate structure located on a substrate includes a gate dielectric layer, a metal layer and a titanium aluminum nitride metal layer. The gate dielectric layer is located on the substrate. The metal layer is located on the gate dielectric layer. The titanium aluminum nitride metal layer is located on the metal layer. | 02-28-2013 |
20140205953 | METHOD FOR FORMING SEMICONDUCTOR DEVICE - A method for forming a semiconductor device comprises the following steps: first, a substrate is provided, a first photo-etching process is carried out with a first photomask to form at least one device structure and a plurality of compensation structures, wherein the first photomask comprises at least one device pattern and a plurality of dummy patterns. A photoresist layer is then formed on the device structure and each compensation structures; a second photo-etching process is then carried out with a second photomask to remove each compensation structure. | 07-24-2014 |
20140295650 | METHOD FOR FABRICATING PATTERNED STRUCTURE OF SEMICONDUCTOR DEVICE - A method of fabricating a patterned structure of a semiconductor device is provided. First, a substrate having a first region and a second region is provided. A target layer, a hard mask layer and a first patterned mask layer are then sequentially formed on the substrate. A first etching process is performed by using the first patterned mask layer as an etch mask so that a patterned hard mask layer is therefore formed. Spacers are respectively formed on each sidewall of the patterned hard mask layer. Then, a second patterned mask layer is formed on the substrate. A second etching process is performed to etch the patterned hard mask layer in the second region. After the exposure of the spacers, the patterned hard mask layer is used as an etch mask and an exposed target layer is removed until the exposure of the corresponding substrate. | 10-02-2014 |
20140302677 | METHOD FOR MANUFACTURING SEMICONDUCTOR STRUCTURES - A method for manufacturing semiconductor structures includes providing a substrate having a plurality of mandrel patterns and a plurality of dummy patterns, simultaneously forming a plurality of first spacers on sidewalls of the mandrel patterns and a plurality of second spacers on sidewalls of the dummy patterns, and removing the second spacers and the mandrel patterns to form a plurality of spacer patterns on the substrate. | 10-09-2014 |
Ching-Ling Pan, Hsin Chuang City TW
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20090120600 | Nano carbon crystal material and method of manufacturing electrothermal board by using the same - The present invention discloses a nano carbon crystal material and a method of manufacturing electrothermal board using the same, which is a crystal material and a method of using the facial heat generating body to overcome the present existing problems related to even temperature rise and heat dissipation at the surface of the carbon fiber electrothermal board, poor contact between the carbon fiber and the conducting band, poor insulation, and short life expectancy. The nano carbon crystal material is composed of acrylonitrile-based carbon fibers occupying 70˜80% of the total weight, nano carbon fibers occupying 1˜5% of the total weight and carbon crystals occupying 15˜29% of the total weight. After the nano carbon crystal material is mixed with a paper pulp and an adhesive is added, the electrothermal board produced under pressurized conditions will have the advantages of high stability, fast temperature rise, good insulation, and long life. In addition, the method of manufacturing the electrothermal board is simple, easy, and convenient, and thus is suitable for mass production to satisfy the requirements of production as well as our daily life. | 05-14-2009 |
20100062667 | Activated carbon fiber soft electric heating product and manufacturing method thereof - An activated carbon fiber soft electric heating product and its manufacturing method for overcoming existing problems including uneven temperature rise and heat dissipation at surfaces of the product, unbendable feature, short life and poor safety. An activated carbon fiber cloth and a woven fiber cloth of the activated carbon fiber soft electric heating product are fixed by an epoxy resin layer, and a conducting copper net is disposed between the activated carbon fiber cloth and the epoxy resin layer and coupled to a power input wire. The manufacturing method includes the steps of: (1) spraying an epoxy resin on a surface of the woven fiber cloth, and bake-drying and hot pressing the woven fiber cloth; and (2) connecting the conducting copper net and the power input wire, laying the activated carbon fiber cloth, and performing a second-time hot pressing. Meanwhile, carbon fiber constitutes a heat generating surface with the advantages of a light weight, a soft texture, a bendable feature, a uniform electric heating performance, a fast temperature rise, a highly safe, reliable and long life feature. In addition, the method of the invention involves a simple technical skill and an easy operation. | 03-11-2010 |
Ching-Ling Yang, Sanchong City TW
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20090262782 | SOLAR-POWERED TEMPERATURE MEASURING APPARATUS - A solar-powered temperature measuring apparatus includes: a case, at least one part of a surface thereof including a solar panel used for converting visible light to electric energy; a first connection portion, positioned in the case; and a temperature measurer, accepted in the case, including: a main body; a second connection portion, positioned on the main body and used for connecting with the first connection portion; and a charging element, connected electrically to the second connection portion and used for storing electric energy generated form the solar panel. By this means, visible light is converted to electric energy to conform to each country's current environmental protection policies, and the charging element may be charged at any time to solve the problem of a conventional clinical thermometer being unable to be used due to insufficient cell power. | 10-22-2009 |