Cheng-Hsien Lin
Cheng-Hsien Lin, Taipei City TW
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20100056804 | Compound containing carboxylate ester and N2S2 ligand bi-functional groups and manufacturing method thereof - A compound containing carboxylate ester and N2S2 ligand bi-functional groups and a manufacturing method thereof are disclosed. The S in the N2S2 ligand of the compound containing carboxylate ester and N2S2 ligand bi-functional groups includes a protective group so as to avoid to be oxidized and easy storage. In a complex reaction, the protective group is automatically released As to the active carboxylate ester, it is for reacting with compounds having amino groups such as amines, amino acids, peptides, or protein etc while the N2S2 ligand is for bonding with technetium or rhenium so as to form neutral complex. The compound containing carboxylate ester and N2S2 ligand bi-functional groups is applied to radiopharmaceuticals such as contrast agents for tissues and target agents. | 03-04-2010 |
20100183508 | RADIOACTIVE MIXTURE AND MANUFACTURING METHOD THEREOF - A radioactive mixture and a manufacturing method thereof are disclosed. The radioactive mixture ( | 07-22-2010 |
20110040119 | METHOD FOR PREPARING PRECURSOR OF RADIOACTIVE 3-IODOBENZYLGUANIDINE - A method for preparing a precursor of radioactive 3-iodobenzylguanidine-N,N′-bis(tert-butyloxycarbonyl)-3-(tri-n-butyltin)benzylguanidine) (MSnBG) is revealed. The MSnBG is a precursor of [*I]MIBG that is used as radioactive imaging agents and antineoplastic drugs. The method includes following steps. Firstly, obtain 3-iodobenzylguanidine bicarbonate by an addition reaction between 3-iodobenzylamine hydrochloride and cyanamide. Use di-tert-butyl dicarbonate as a protecting agent for NH group and convert 3-iodobenzylguanidine bicarbonate into N,N′-bis(tert-butyloxycarbonyl)-N-(3-iodobenzyl) guanidine. At last, under catalysis of bis(triphenylphosphine) palladium dichloride, obtain a final product MSnBG by a substitution reaction between N,N′-bis(tert-butyloxycarbonyl)-N-(3-iodobenzyl) guanidine and bis(tri-n-butyltin). MSnBG is used in no-carrier-added synthesis of [*I]MIBG. The [*I]MIBG obtained by this method has better effect on neuroblastoma treatment than that obtained by conventional, carrier-added method. | 02-17-2011 |
20110040123 | Bifunctional compound containing amino group and diaminedithiol ligand and manufacturing method thereof - A bifunctional compound containing an amino group and diaminedithiol ligand and a manufacturing method thereof are revealed, the bifunctional compound includes at least one amino group and a diaminedithiol (N | 02-17-2011 |
20110065904 | H3LMN COMPOUND USED AS RADIOACTIVE AGENT FOR TREATMENT OF LIVER CANCER AND MANUFACTURING METHOD THEREOF | 03-17-2011 |
20110313183 | METHOD FOR PREPARATION OF N-METHYL-3-(2-TRIBUTYLSTANNYLPHENOXY)-3-PHENYLPROPANAMINE, AND USE THEROF - A method for preparation of N-methyl-3-(2-tributylstannylphenoxy)-3-phenylpropanamine is provided, which includes formation of N-methyl-3-(2-tributylstannylphenoxy)-3-phenylpropanamine, useful as a precursor of a norepinephrine transporter (NET) contrast label [ | 12-22-2011 |
20120009669 | BIFUNCTIONAL COMPOUND WITH MONOSACCHARIDE AND N2S2 LIGAND, AND PREPARATION AND USE THEREOF - A bifunctional compound with a monosaccharide and a N | 01-12-2012 |
Cheng-Hsien Lin, Tu-Cheng TW
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20090078578 | PRE-PLATING SOLUTIONS FOR MAKING PRINTED CIRCUIT BOARDS AND METHODS FOR PREPARING THE SAME - A pre-plating solution for making a printed circuit board includes carbon nanotubes of 0.01-3 wt %, a surfactant of 0.01-4 wt %, an alkaline substance of 0.01-l wt % and a solvent. A method for preparing a pre-plating solution comprising the steps of: providing a plurality of carbon nanotubes; purifying the carbon nanotubes; treating the purified carbon nanotubes with an acid; mixing the treated carbon nanotubes, an alkaline substance and a solvent to form suspension; and adding surfactant into suspension. | 03-26-2009 |
20090092813 | Electromagnetic shielding composite and method for making the same - An electromagnetic shielding composite includes a polymer and a plurality of carbon nanotubes disposed in the polymer in a form of carbon nanotube film structure. A method for making an electromagnetic shielding composite includes the steps of: (a) providing an array of carbon nanotubes; (b) drawing a carbon nanotube film from the array of carbon nanotubes; (c) providing a substrate, covering at least one carbon nanotube film on the substrate to form a carbon nanotube film structure; and (d) providing a polymer and combining the carbon nanotube film structure with the polymer to form an electromagnetic shielding composite. | 04-09-2009 |
20100151120 | Method for making conductive wires - A method for making conductive wires is provided. Firstly, an ink having carbon nanotubes is provided. Secondly, a baseline is formed using the ink on a substrate. Thirdly, the baseline is electroless plated. | 06-17-2010 |
20100173095 | Inkjet ink and method for making conductive wires using the same - An inkjet ink includes a solvent, precious metal ions, a number of carbon nanotubes, and a binder. The carbon nanotubes are disposed in the solvent, and the precious metal ions are adhered to a surface of each of the carbon nanotubes via the binder. A method for making conductive wires is provided. | 07-08-2010 |
20100255290 | Carbon nanotube metal nanoparticle composite and method for making the same - A method for making carbon nanotube precious metal nanoparticles composite includes the following steps. A solution dissolving precious metal ions is provided. A water soluble polymer is provided and dissolved in water to form a solution of the soluble polymer. The solution of the precious metal ions is added into the solution of the soluble polymer to form a first mixture. A solution of carbon nanotubes is provided and added in the first mixture to form a second mixture. The second mixture is irradiated via radiation, the radiation have a wave length less than 450 nm. | 10-07-2010 |
20120237721 | ELECTROMAGNETIC SHIELDING COMPOSITE - An electromagnetic shielding composite includes a polymer and a carbon nanotube film structure. The carbon nanotube structure includes a number of carbon nanotubes disposed in the polymer. The number of carbon nanotubes are parallel with each other. | 09-20-2012 |
Cheng-Hsien Lin, Taoyuan TW
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20090175713 | BOARD INVERTER - The present invention relates to a board inverter and a boarding inverting system. The board inverter includes a support, a first board picking device, an second board picking device and a controller. Each of the first board picking device and the second board picking device includes a driving mechanism and a first board picking device. The driving mechanism comprises a first linear driving means mounted on the support, a second linear driving means mechanically coupled to the first linear driving means, and a rotary driving means attached to the second linear driving means. The controller is connected to all the power supply members. The controller controls the motion of the first board picking device and the second board picking device such that the first board picking device and the second board picking device cooperatively inverting workpieces transmitted on a production line. The board inverter can be installed on a production line without altering the arrangement of existing production line. | 07-09-2009 |
20100139966 | INNER SUBSTRATE FOR MANUFACTURING MULTILAYER PRINTED CIRCUIT BOARDS - An exemplary inner substrate for manufacturing multilayer printed circuit boards is provided. The inner substrate has a number of substrate units and a number of transverse folding portions alternately arranged along a longitudinal direction of the inner substrate. Each of the substrate units is configured for forming a unitary printed circuit board. Each of the folding portions is interconnected between neighboring substrate units. Each of the folding portions defines at least one line of weakness perpendicular to the longitudinal direction of the inner substrate for facilitating folding and unfolding the neighboring substrate units to each other. | 06-10-2010 |
20110274866 | INNER SUBSTRATE FOR MANUFACTURING MULTILAYER PRINTED CIRCUIT BOARDS - An exemplary inner substrate for manufacturing multilayer printed circuit boards is provided. The inner substrate has a number of substrate units and a number of transverse folding portions alternately arranged along a longitudinal direction of the inner substrate. Each of the substrate units is configured for forming a unitary printed circuit board. Each of the folding portions is interconnected between neighboring substrate units. Each of the folding portions defines at least one line of weakness perpendicular to the longitudinal direction of the inner substrate for facilitating folding and unfolding the neighboring substrate units to each other. Each of the folding portions defines at least one groove in at least one side thereof along the at least one line of weakness. | 11-10-2011 |
Cheng-Hsien Lin, Taipei County TW
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20110161084 | APPARATUS, METHOD AND SYSTEM FOR GENERATING THRESHOLD FOR UTTERANCE VERIFICATION - Apparatus, method and system for generating a threshold for utterance verification are introduced herein. When a processing object is determined, a recommendation threshold is generated according to an expected utterance verification result. In addition, extra collection of corpuses or training models is not necessary for the utterance verification introduced here. The processing unit can be a recognition object or an utterance verification object. In the apparatus, method and system for generating a threshold for utterance verification, at least one of the processing objects is received and then a speech unit sequence is generated therefrom. One or more values corresponding to each of the speech unit of the speech unit sequence are obtained accordingly, and then a recommendation threshold is generated based on an expected utterance verification result. | 06-30-2011 |
Cheng-Hsien Lin, Tayua TW
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20120211267 | PRINTED CIRCUIT BOARD SUBSTRATE - A printed circuit board substrate includes a metal-clad substrate and a number of N spaced circuit substrates arranged on the metal-clad substrate along an imaginary circle, and N is a natural number greater than 2. The circuit substrates are equiangularly arranged about the center of the circle, and each of the circuit substrates is oriented 360/N degrees with respect to a neighboring printed circuit board. | 08-23-2012 |
Cheng-Hsien Lin, New Taipei City TW
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20140114663 | GUIDED SPEAKER ADAPTIVE SPEECH SYNTHESIS SYSTEM AND METHOD AND COMPUTER PROGRAM PRODUCT - According to an exemplary embodiment of a guided speaker adaptive speech synthesis system, a speaker adaptive training module generates adaptation information and a speaker-adapted model based on inputted recording text and recording speech. A text to speech engine receives the recording text and the speaker-adapted model and outputs synthesized speech information. A performance assessment module receives the adaptation information and the synthesized speech information to generate assessment information. An adaptation recommendation module selects at least one subsequent recording text from at least one text source as a recommendation of a next adaption process, according to the adaptation information and the assessment information. | 04-24-2014 |
Cheng-Hsien Lin, Taoyuan City TW
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20130222619 | Electronic Device and Method for Image Stabilization - An electronic device and methods for image stabilization for use in an electronic device are provided. The method includes the steps of: receiving a plurality of motion data, at least a portion of the plurality of motion data corresponding to a first image frame, determining a motion value corresponding to the first image frame according to the portion of motion data, determining a display offset between the first image frame to a reference image frame according to the motion value and providing a portion of the first image frame for display according to the display offset. The reference image frame is displayed prior to the first image frame and is stored in a storage unit. | 08-29-2013 |
20140079319 | METHODS FOR ENHANCING IMAGES AND APPARATUSES USING THE SAME - An embodiment of an image enhancement method is introduced. An object is detected from a received image according to a object feature. An intensity distribution of the object is computed. A plurality of color values of pixels of the object is mapped to a plurality of new color values of the pixels according to the intensity distribution. Finally, a new image comprising the new color values of the pixels is provided to a user. | 03-20-2014 |
Cheng-Hsien Lin, Taoyuan County TW
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20150139533 | METHOD, ELECTRONIC DEVICE AND MEDIUM FOR ADJUSTING DEPTH VALUES - A depth processing method, an electronic device and a medium are provided. The depth processing method includes: obtaining a color image and a depth map corresponding to the color image; extracting a plurality of regions from at least one of the depth map and the color image; obtaining region information of the regions, and classifying the regions into at least one of a region-of-interest and a non-region-of-interest according to the region information, wherein the region information comprises area information and edge information; and adjusting a plurality of depth values in the depth map according to the region information. | 05-21-2015 |
Cheng-Hsien Lin, Hsinchu TW
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20150226906 | FRONT LIGHT MODULE AND ELECTRONIC PAPER DISPLAY DEVICE HAVING THE SAME - The front light module includes a light guide plate, a light source, a first light transmissive substrate, a second light transmissive substrate, and a printing ink layer. The light guide plate has a first light emitting surface, a second light emitting surface, and a light incident surface. The light source faces the light incident surface. The first light transmissive substrate is located on the first light emitting surface. The second light transmissive substrate is located on the surface of the first light transmissive substrate facing away from the light guide plate, and the thickness of the second light transmissive substrate is smaller than that of the first light transmissive substrate. The printing ink layer is located on the surface of the second light transmissive substrate facing the first light transmissive substrate, and on an edge of the second light transmissive substrate. | 08-13-2015 |