Patents by Inventor Cheng-Si Tsao
Cheng-Si Tsao has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9985077Abstract: The present invention relates to a serial module of organic solar cells and the method for manufacturing the same. The structure comprises a transparent conductive layer composed by a plurality of conductive blocks, an active layer having notches on the periphery, and a metal layer composed by a plurality of metal blocks. The active layer according to the present invention is a complete layer except the notches on the periphery for exposing a portion of the transparent conductive layer. The metal blocks can contact the conductive blocks of adjacent organic solar cell via the exposure areas and thus connecting the organic solar cells in series. The present invention can improves the power generating efficiency of organic solar cells in a limited space, which is beneficial to the development of promotion of future organic solar cells.Type: GrantFiled: October 17, 2014Date of Patent: May 29, 2018Assignee: ATOMIC ENERGY COUNCIL—INSTITUTE OF NUCLEAR ENERGY RESEARCHInventors: Yu-Ching Huang, De-Han Lu, Hou-Chin Cha, Cheng-Wei Chou, Chih-Min Chuang, Yeong-Der Lin, Charn-Ying Chen, Cheng-Si Tsao
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Patent number: 9711722Abstract: The present invention discloses a method for improving mass-production yield of large-area organic solar cells for forming the active layer using the roll-to-roll process. The active layer includes low-bandgap high-polymer PTB7, Fullerenes derivative PC71BM, and high-boiling-point additives. The addition of the high-boiling-point additives can enhance the efficiency of organic solar cells effectively. In the roll-to-roll process according to the present invention, the drying temperature for the wet film is controlled for controlling the content of additives in the dry film. Thereby, the stability of the overall mass production and the device yield can be both improved.Type: GrantFiled: December 15, 2015Date of Patent: July 18, 2017Assignee: Institute of Nuclear Energy Research, Atomic Energy Council, Executive Yuan, R.O.C.Inventors: Yu-Ching Huang, Hou-Chin Cha, De-Han Lu, Chih-Min Chuang, Zheng-Lin Yu, Chia-Te Yen, Yeong-Der Lin, Charn-Ying Chen, Cheng-Si Tsao
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Publication number: 20170170397Abstract: The present invention discloses a method for improving mass-production yield of large-area organic solar cells for forming the active layer using the roll-to-roll process. The active layer includes low-bandgap high-polymer PTB7, Fullerenes derivative PC71BM, and high-boiling-point additives. The addition of the high-boiling-point additives can enhance the efficiency of organic solar cells effectively. In the roll-to-roll process according to the present invention, the drying temperature for the wet film is controlled for controlling the content of additives in the dry film. Thereby, the stability of the overall mass production and the device yield can be both improved.Type: ApplicationFiled: December 15, 2015Publication date: June 15, 2017Inventors: YU-CHING HUANG, HOU-CHIN CHA, DE-HAN LU, CHIH-MIN CHUANG, ZHENG-LIN YU, CHIA-TE YEN, YEONG-DER LIN, CHARN-YING CHEN, CHENG-SI TSAO
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Publication number: 20160284890Abstract: The present relates to antioxidant conductive copper ink and the method for preparing the same. The antioxidant conductive copper ink comprises nanometer copper or copper-alloy particles, which are used as the conductive particle material, water-free alcohol, which is used as the solvent, tert-butanol and ultra-pure water, which is used as the pasting agent, and carboxylic acid, which is used as the dispersant. Alternatively, isopropanol is used as the pasting agent and glycol is used as the solvent for injecting processes. The antioxidant conductive copper ink disclosed in the present invention owns the properties of high stability and low cost, and hence is applicable to the applications of fabricating the electrodes of silicon-crystal solar cells and printable electronic materials such as PCB or RFID.Type: ApplicationFiled: May 6, 2015Publication date: September 29, 2016Inventors: WEI-CHEN CHANG, WEI-YANG MA, GUAN-LIN CHEN, LI-WEI WENG, CHENG-HUAN CHUNG, TSUN-NENG YANG, CHENG-SI TSAO, YU-CHING HUANG
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Patent number: 9412959Abstract: A method of making a solar cell includes: preparing an active layer solution including p-type and n-type organic semiconductor materials, a solvent, and an additive, the additive containing 1, 8-iodooctane (DIO) and 1-chloronaphthalene (CN) that has a total volume not greater than 3 vol % based on a total volume of the solvent and the additive; preparing an assembly having a substrate, a first electrode layer, and a first transporting layer; coating the active layer solution on the first transporting layer to form a wet active layer; drying the wet active layer at a temperature not greater than 60° C.; and forming a second transporting layer and a second electrode layer on the active layer.Type: GrantFiled: December 30, 2015Date of Patent: August 9, 2016Assignee: INSTITUTE OF NUCLEAR ENERGY RESEARCH ATOMIC ENERGY COUNCIL, EXECUTIVE YUANInventors: Hou-Chin Cha, Yu-Ching Huang, Chih-Min Chuang, De-Han Lu, Zheng-Lin Yu, Chia-Te Yen, Yeong-Der Lin, Charn-Ying Chen, Cheng-Si Tsao
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Patent number: 9333489Abstract: The present invention discloses a confined cell structure with the entires guarded by nano-scale metal nano-particles to help confine subnano-sized metal nano-particles inside the cell. Also the present invention provides a method of forming said confined cell structure on mesoporous carbon materials using a simple impregnation process.Type: GrantFiled: December 3, 2013Date of Patent: May 10, 2016Assignee: Atomic Energy Council—Institute of Nuclear Energy ResearchInventors: Yi-Ren Tzeng, Cheng-Si Tsao
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Patent number: 9269904Abstract: A method for manufacturing large-area organic solar cells utilizes a hot solvent vapor annealing manufacturing process while manufacturing the organic solar cells via a large-area proceeding method, such as spraying. Namely, a heated solvent vapor is utilized to modify an active layer after the active layer of the organic solar cells is formed, which ensures a flatness and an uniformity thereof and increases a crystallinity of the active layer and an element charge transport rate so that a power conversion efficiency of the large area organic solar cells is increased, a proceeding time is quite short, and the performance thereof is quite obvious. Therefore, the method not only reduces the cost by a large area production but obtains organic solar cells with higher conversion efficiency.Type: GrantFiled: October 2, 2013Date of Patent: February 23, 2016Assignee: Atomic Energy Council—Institute of Nuclear Energy ResearchInventors: Yu-Ching Huang, Hou-Chin Cha, Fan-Hsuan Hsu, Cheng-Wei Chou, De-Han Lu, Yeong-Der Lin, Chih-Min Chuang, Charn-Ying Chen, Cheng-Si Tsao
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Publication number: 20150380465Abstract: The present invention relates to a serial module of organic solar cells and the method for manufacturing the same. The structure comprises a transparent conductive layer composed by a plurality of conductive blocks, an active layer having notches on the periphery, and a metal layer composed by a plurality of metal blocks. The active layer according to the present invention is a complete layer except the notches on the periphery for exposing a portion of the transparent conductive layer. The metal blocks can contact the conductive blocks of adjacent organic solar cell via the exposure areas and thus connecting the organic solar cells in series. The present invention can improves the power generating efficiency of organic solar cells in a limited space, which is beneficial to the development of promotion of future organic solar cells.Type: ApplicationFiled: October 17, 2014Publication date: December 31, 2015Inventors: YU-CHING HUANG, DE-HAN LU, HOU-CHIN CHA, CHENG-WEI CHOU, CHIH-MIN CHUANG, YEONG-DER LIN, CHARN-YING CHEN, CHENG-SI TSAO
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Patent number: 9196852Abstract: A method for manufacturing membrane layers of organic solar cells by roll to roll coating utilizes a roll to roll process for manufacturing an electron transferring layer and an active layer of the organic solar cells is disclosed. The roll to roll process adopted by the method cooperates with a particular solvent and accompanies a parameter control such as temperature and processing time during the sintering and baking steps. The method utilizes a slot-die coating technique in the interim, whereby a membrane layer of the solar cells can be manufactured with a large area for reducing the cost, and the formed membrane layers can have a good efficiency.Type: GrantFiled: October 29, 2013Date of Patent: November 24, 2015Assignee: Atomic Energy Council—Institute of Nuclear Energy ResearchInventors: Hou-Chin Cha, Yu-Ching Huang, Chih-Min Chuang, Cheng-Wei Chou, De-Han Lu, Yeong-Der Lin, Charn-Ying Chen, Cheng-Si Tsao
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Publication number: 20150151277Abstract: The present invention discloses a confined cell structure with the entires guarded by nano-scale metal nano-particles to help confine subnano-sized metal nano-particles inside the cell. Also the present invention provides a method of forming said confined cell structure on mesoporous carbon materials using a simple impregnation process.Type: ApplicationFiled: December 3, 2013Publication date: June 4, 2015Applicant: ATOMIC ENERGY COUNCIL - INSTITUTE OF NUCLEAR ENERGY RESEARCHInventors: YI-REN TZENG, CHENG-SI TSAO
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Patent number: 9030104Abstract: A method and system for adjusting power supply and display screen brightness of an electronic device with a thin-film solar panel are introduced. The method includes configuring the electronic device with a first threshold level and a second threshold level, wherein the first threshold level and the second threshold level are voltage levels or current levels; attaching the thin-film solar panel to a casing of the electronic device for enabling the electronic device to convert an external light into a transformed voltage or current; and determining whether the transformed voltage or current lies between the first threshold level and the second threshold level to decide whether to allow the display screen to operate at an existing brightness level thereof continuously. The method and system enable the electronic device to receive the external light for supplementing power supple and sense the external light for adjusting power level.Type: GrantFiled: May 11, 2012Date of Patent: May 12, 2015Assignee: Institute of Nuclear Energy Research, Atomic Energy Council, Executive YuanInventors: Charn-Ying Chen, Chi-Yuan Chang, Cheng-Si Tsao, Chih-Min Chuang, Hou-Chin Cha, Yu-Ching Huang, Yeong-Der Lin, Fan-Hsuan Hsu, Chia-Hsin Lee
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Publication number: 20150056735Abstract: A method for manufacturing membrane layers of organic solar cells by roll to roll coating utilizes a roll to roll process for manufacturing an electron transferring layer and an active layer of the organic solar cells is disclosed. The roll to roll process adopted by the method cooperates with a particular solvent and accompanies a parameter control such as temperature and processing time during the sintering and baking steps. The method utilizes a slot-die coating technique in the interim, whereby a membrane layer of the solar cells can be manufactured with a large area for reducing the cost, and the formed membrane layers can have a good efficiency.Type: ApplicationFiled: October 29, 2013Publication date: February 26, 2015Applicant: ATOMIC ENERGY COUNCIL-INSTITUTE OF NUCLEAR ENERGY RESEARCHInventors: HOU-CHIN CHA, YU-CHING HUANG, CHIH-MIN CHUANG, CHENG-WEI CHOU, DE-HAN LU, YEONG-DER LIN, CHARN-YING CHEN, CHENG-SI TSAO
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Publication number: 20150004735Abstract: A method for manufacturing large-area organic solar cells utilizes a hot solvent vapor annealing manufacturing process while manufacturing the organic solar cells via a large-area proceeding method, such as spraying. Namely, a heated solvent vapor is utilized to modify an active layer after the active layer of the organic solar cells is formed, which ensures a flatness and an uniformity thereof and increases a crystallinity of the active layer and an element charge transport rate so that a power conversion efficiency of the large area organic solar cells is increased, a proceeding time is quite short, and the performance thereof is quite obvious. Therefore, the method not only reduces the cost by a large area production but obtains organic solar cells with higher conversion efficiency.Type: ApplicationFiled: October 2, 2013Publication date: January 1, 2015Applicant: ATOMIC ENERGY COUNCIL-INSTITUTE OF NUCLEAR ENERGY RESEARCHInventors: YU-CHING HUANG, HOU-CHIN CHA, FAN-HSUAN HSU, CHENG-WEI CHOU, DE-HAN LU, YEONG-DER LIN, CHIH-MIN CHUANG, CHARN-YING CHEN, CHENG-SI TSAO
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Publication number: 20140116510Abstract: A bulk heterojunction solar cell comprises an electron donor, an electron acceptor, and a multi-substituted fullerene derivative. The electron acceptor further comprises a nano-scale electron acceptor material, and a meso-scale mixture of electron donor/acceptor material. The multi-substituted fullerene derivative further comprises a single fullerene structure and a multi-substituted derivative connected to the single fullerene structure. The multi-substituted fullerene derivative is utilized to prevent the meso-scale mixture of electron donor/acceptor material from large-scale segregation of acceptor over a specific temperature after a specific period (thermally unstable state), thereby maintaining the thermal stability and the sizes of the nano-scale acceptor material and meso-scale mixture of electron donor/acceptor material. In the conventional knowledge, the large-scale segregation and corresponding degradation of power efficiency are cause mainly by the nano-scale acceptor material.Type: ApplicationFiled: August 15, 2013Publication date: May 1, 2014Applicant: INSTITUTE OF NUCLEAR ENERGY RESEARCH ATOMIC ENERGY COUNCIL, EXECUTIVE YUANInventors: CHENG-SI TSAO, LEE-YIH WANG, YU-CHING HUANG, CHARN-YING CHEN, HUNG-WEI LIU, CHIH-MIN CHUANG, HOU-CHIN CHA, FAN-HSUAN HSU, YEONG-DER LIN
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Publication number: 20130234606Abstract: A method and system for adjusting power supply and display screen brightness of an electronic device with a thin-film solar panel are introduced. The method includes configuring the electronic device with a first threshold level and a second threshold level, wherein the first threshold level and the second threshold level are voltage levels or current levels; attaching the thin-film solar panel to a casing of the electronic device for enabling the electronic device to convert an external light into a transformed voltage or current; and determining whether the transformed voltage or current lies between the first threshold level and the second threshold level to decide whether to allow the display screen to operate at an existing brightness level thereof continuously. The method and system enable the electronic device to receive the external light for supplementing power supple and sense the external light for adjusting power level.Type: ApplicationFiled: May 11, 2012Publication date: September 12, 2013Applicant: Institute of Nuclear Energy Research, Atomic Energy Council, Executive YuanInventors: Charn-Ying Chen, Chi-Yuan Chang, Cheng-Si Tsao, Chih-Min Chuang, Hou-Chin Cha, Yu-Ching Huang, Yeong-Der Lin, Fan-Hsuan Hsu, Chia-Hsin Lee
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Patent number: 8488167Abstract: A computerized chart recorder is revealed, comprises a signal conversion unit, an operation control unit, a printing control unit, and a database. A signal conversion unit receives measurement signals of a measurement instrument, and converts the measurement signals to signal conversion data. A operation control unit receives the signal conversion data required for printing, produces corresponding chart data, and prints the curve of signal variations, which can be also displayed on a human-machine interface unit. Whether to store the data or to print can be determined. Besides, the data can be also transmitted to a printing control unit. When the printing control unit is activated, it can receive the chart data and the quality assurance data, and control a printing unit to emulate the chart recorder for executing chart recording. In addition, the quality assurance data can be printed as well for complying with the requirements of the quality-assurance operations.Type: GrantFiled: September 27, 2010Date of Patent: July 16, 2013Assignee: Atomic Energy Council-Institute of Nuclear Energy ResearchInventors: Hsin-Fa Fang, Ming-Churng Hsieh, Chung-Liang Chen, Ming-Chen Yuan, Cheng-Si Tsao, Kang-Neng Peng
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Publication number: 20120075660Abstract: A computerized chart recorder is revealed, comprises a signal conversion unit, an operation control unit, a printing control unit, and a database. A signal conversion unit receives measurement signals of a measurement instrument, and converts the measurement signals to signal conversion data. A operation control unit receives the signal conversion data required for printing, produces corresponding chart data, and prints the curve of signal variations, which can be also displayed on a human-machine interface unit. Whether to store the data or to print can be determined. Besides, the data can be also transmitted to a printing control unit. When the printing control unit is activated, it can receive the chart data and the quality assurance data, and control a printing unit to emulate the chart recorder for executing chart recording. In addition, the quality assurance data can be printed as well for complying with the requirements of the quality-assurance operations.Type: ApplicationFiled: September 27, 2010Publication date: March 29, 2012Applicant: ATOMIC ENERGY COUNCIL-INSTITUTE OF NUCLEAR ENERGY RESEARCHInventors: HSIN-FA FANG, MING-CHURNG HSIEH, CHUNG-LIANG CHEN, MING-CHEN YUAN, CHENG-SI TSAO, KANG-NENG PENG
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Publication number: 20110172087Abstract: A method of forming a hydrogen storage structure is disclosed, which comprises: providing a porous material formed by micropores and nanochannels, wherein said micropores have a size less than 2 nm and a volumetric ratio larger than 0.2 cm3/g, said nanochannels have a width less than 2.5 nm, and fractal networks formed by said nanochannels have a fractal dimension closed to 3; to form an oxidized porous material by oxidation of said porous material and to properly increase and tailor sizes of said micropores and nanochannels; and forming metal particles of diameters less than 2 nm in said micropores and said nanochannels of said oxidized porous material. By the method according to the present invention, it is capable of constructing a hydrogen storage structure with room-temperature hydrogen storage capability of almost 6 wt %, which satisfies the on-board target criteria of DOE in America by 2010.Type: ApplicationFiled: October 25, 2010Publication date: July 14, 2011Applicant: Institute of Nuclear Energy Research Atomic Energy Council, Executive YuanInventors: CHENG-SI TSAO, MING-SHENG YU, YI-REN TZENG, HSIU-CHU WU, TSUI-YUN CHUNG, HUA-WEN CHANG, HUAN-HSIUNG TSENG, CHUN-CHING CHIEN, HAW-YEU CHUANG
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Publication number: 20110160042Abstract: The present invention provides a method for constructing a fractal network structure in hydrogen storage material to improve the hydrogen uptake at room temperature, the method including the following steps: providing a hydrogen storage material comprising a source and a receptor of hydrogen atoms, wherein the source is disposed above the receptor, and a chemical bridge is disposed between the source and the receptor, wherein the chemical bridge is composed of precursor material; and treating the hydrogen storage material to construct a fractal network structure of mesopores and micropores in the receptor, so as to enhance the hydrogen storage capacity of the hydrogen storage material at room temperature.Type: ApplicationFiled: October 15, 2010Publication date: June 30, 2011Applicant: Institute of Nuclear Energy Research Atomic Energy Council, Executive YuanInventors: CHENG-SI TSAO, Ming-Sheng Yu, Yi-Ren Tzeng, Tsui-Yun Chung, Hsiu-Chu Wu, Haw-Yeu Chuang, Chien-Hung Chen, Kang-Ning Lee, Hua-Wen Chang, Huan-Hsiung Tseng
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Patent number: 7927693Abstract: The present invention provides a high capacity hydrogen storage material in which a plural mesopore channels and fractal networks of nanopore channels communicating therewith and connecting to the micropores are formed in a microporous material, wherein a plural metal particles are formed on the surface of the mesopore and nanopore channels and of the micropores. In another embodiment, the present invention also provides a method for making the hydrogen storage material through oxidizing the microporous material so as to form a plural mesopore channels and fractal networks of nanopore channels, both of which are connected to the micropores to form a base for the deposition of metal particles capable of decomposing hydrogen molecules into hydrogen atoms. The high capacity hydrogen storage material is capable of increasing the capacity of hydrogen storage, and besides, the oxidizing process for making the hydrogen storage material is simple and has merits of saving cost.Type: GrantFiled: October 29, 2008Date of Patent: April 19, 2011Assignee: Institute of Nuclear Energy Research Atomic Energy Council, Executive YuanInventors: Cheng-Si Tsao, Ming-Sheng Yu, Yi-Ren Tzeng, Cheng-Yu Wang, Hsiu-Chu Wu, Tsui-Yun Chung, Chun-Ching Chien, Li-Fu Lin