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21. 发明授权

US09178094B1 Method for packaging solar cell receiver having secondary optical elements 有权
标题翻译：包含具有次级光学元件的太阳能电池接收器的方法
公开(公告)号：US09178094B1
公开(公告)日：2015-11-03
申请号：US14464787
申请日：2014-08-21
申请人： ATOMIC ENERGY COUNCIL-INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： Hwen-Fen Hong , Zun-Hao Shih , Yueh-Mu Lee , Yi-Ping Liang , Hwa-Yuh Shin
IPC分类号： H01L31/048 , H01L31/18 , H01L31/0232 , H01L31/0236 , H01L31/0216
CPC分类号： H01L31/0543 , H01L31/02168 , H01L31/02327 , H01L31/02366 , H01L31/048 , H01L31/18 , H02S40/22 , Y02E10/52
摘要： The present invention relates to a method for packaging solar cell receivers having secondary optical elements. The present invention adopts a mold having mold cavities with special shapes. By filling mold cavities with optical encapsulant, the substrate containing solar cells is placed upside down towards the mold. Then the solar cells are immersed into the optical encapsulant before curing. Then, the cured optical encapsulant has the characteristics of the secondary optical elements and thus can be used as secondary optical elements such as spherical lenses. Meanwhile, the packaging of the solar cells is completed as well. The overall process requires only one curing process, which reduces the packaging time substantially.
摘要翻译：本发明涉及一种用于封装具有次级光学元件的太阳能电池接收器的方法。本发明采用具有特殊形状的模腔的模具。通过用光学密封剂填充模具腔，将包含太阳能电池的基板朝向模具倒置放置。然后在固化前将太阳能电池浸入光学密封剂中。然后，固化的光学密封剂具有二次光学元件的特性，因此可以用作诸如球面透镜的二次光学元件。同时，也完成了太阳能电池的封装。整个过程只需要一个固化过程，这大大减少了包装时间。

22. 发明申请

US20150187979A1 HETEROJUNCTION SOLAR CELL WITH EPITAXIAL SILICON THIN FILM AND METHOD FOR PREPARING THE SAME 审中-公开
标题翻译：具有外延硅薄膜的异相太阳能电池及其制备方法
公开(公告)号：US20150187979A1
公开(公告)日：2015-07-02
申请号：US14141595
申请日：2013-12-27
申请人： ATOMIC ENERGY COUNCIL - INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： CHUN-YAO HOU , TSUN-NENG YANG
IPC分类号： H01L31/0747 , H01L31/18 , H01L31/0224
CPC分类号： H01L31/0747 , H01L31/022425 , H01L31/028 , H01L31/1804 , Y02E10/547 , Y02P70/521
摘要： A heterojunction solar cell with an epitaxial silicon thin film and a method for preparing the same are revealed. Low-cost upgraded metallurgical grade silicon (UMG-Si) wafers have been used as the substrates to manufacture solar cells so as to reduce the amount of high-purity silicon materials used. First an epitaxial silicon thin film is disposed over a UMG-Si wafer. Then other layers such as an amorphous silicon thin film, a transparent conductive film, etc. are arranged to form a solar cell having heterojunction with an intrinsic thin-layer (HIT) structure. Due to reduce in using high-purity silicon materials, the manufacturing cost of the heterojunction solar cell with an epitaxial silicon thin film is significantly decreased.
摘要翻译：揭示了具有外延硅薄膜的异质结太阳能电池及其制备方法。已经使用低成本的升级冶金级硅（UMG-Si）晶圆作为制造太阳能电池的基板，以减少所使用的高纯度硅材料的量。首先，将外延硅薄膜设置在UMG-Si晶片上。然后布置诸如非晶硅薄膜，透明导电膜等其它层以形成具有本征薄层（HIT）结构的异质结的太阳能电池。由于使用高纯度硅材料的减少，具有外延硅薄膜的异质结太阳能电池的制造成本显着降低。

23. 发明申请

US20150129527A1 FRAME STRUCTURE OF SOLAR CELL MODULE 审中-公开
标题翻译：太阳能电池模块的框架结构
公开(公告)号：US20150129527A1
公开(公告)日：2015-05-14
申请号：US14076391
申请日：2013-11-11
申请人： ATOMIC ENERGY COUNCIL - INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： ZUN-HAO SHIH , HWEN-FEN HONG , YUEH-MU LEE
IPC分类号： F24J2/52 , F24J2/46 , H01L31/02
CPC分类号： H02S30/10 , F24S25/20 , F24S25/65 , Y02E10/47
摘要： The present invention relates to a frame structure of solar cell module, which adopts extruded aluminum as the frame member of solar cell module. At the junctions of the length, width, and height edges, connecting members using the three-axis joining and tenoning technology are used as fixing members. The tenon parts in both horizontal directions of the three-axis connecting member are first inserted into and joined with the mortises of the length-edge bar and the width-edge bar of extruded aluminum. Then the mortises in the height-edge bar are joined with the tenon parts of the connecting member in the vertical direction and thus completing assembling of the frame of solar cell module.
摘要翻译：本发明涉及太阳能电池模块的框架结构，其采用挤压铝作为太阳能电池模块的框架构件。在长度，宽度和高度边缘的接合处，使用三轴连接和榫头技术的连接构件用作固定构件。首先将三轴连接构件的两个水平方向的榫头部分插入长边缘的榫眼和挤出的铝的宽边缘的榫眼中并与其连接。然后将高边缘的榫眼与垂直方向的连接构件的榫头部分连接，从而完成太阳能电池模块的框架的组装。

24. 发明申请

US20150028885A1 METHOD FOR EVALUATION OF CABLE AGING DEGRADATION BASED ON SLICE SAMPLING 有权
标题翻译：基于样片采样的电缆老化降解评估方法
公开(公告)号：US20150028885A1
公开(公告)日：2015-01-29
申请号：US14297794
申请日：2014-06-06
申请人： ATOMIC ENERGY COUNCIL - INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： YAO-TUNG HSU
IPC分类号： G01N27/04 , G01N1/04
CPC分类号： G01N1/04 , G01N1/06 , G01N1/08 , G01N2203/0298 , G01R27/2617 , G01R31/12 , G01R31/1263 , G01R31/1272
摘要： A method for evaluation of cable aging degradation based on slice sampling is revealed. An insulation layer of a cable is aged or degraded from the outside in under influence of high temperature, liquid immersion, radiation exposure, or other factors. The present invention gets slices as samples of the cable by cutting from the outside in. Then related tests including dielectric withstand test, insulation resistance measurement, elongation test, etc. are carried out. Besides the state of cable aging degradation being of the slice being found out, different positions in the insulation layer such as an outer layer, a middle layer and an inner layer can also be evaluated.
摘要翻译：揭示了基于切片采样的电缆老化退化评估方法。电缆的绝缘层在高温，液体浸渍，辐射照射等因素的影响下从外部老化或老化。本发明通过从外部切割获得电缆样品的切片。然后进行包括耐电介质耐受试验，绝缘电阻测量，伸长试验等的相关试验。除了发现切片的电缆老化劣化的状态之外，还可以评估绝缘层中的不同位置，例如外层，中间层和内层。

25. 发明申请

US20150025248A1 RADIOTRACER PRECURSOR BANI FOR IMAGING OF HYPOXIC TISSUE, RADIOTRACER, AND METHOD FOR PREPARING THE SAME 有权
标题翻译：用于成像高分子组织，放射线吸收剂的放射线衍射器前体及其制备方法
公开(公告)号：US20150025248A1
公开(公告)日：2015-01-22
申请号：US13947222
申请日：2013-07-22
申请人： ATOMIC ENERGY COUNCIL - INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： SHOW-WEN LIU , YU CHANG , CHENG-FANG HSU , SHENG-LUN LIN , TSUNG-HSIEN CHIANG , CHIH-YUAN LIN
IPC分类号： C07F13/00 , C07D233/91
CPC分类号： C07F13/005 , C07D233/91
摘要： The present invention relates to a radiotracer precursor for imaging of hypoxic tissues, a radiotracer and a method for preparing the same. The radiotracer precursor, BANI, includes a nitroimidazole functional group with a feature of retention in hypoxic tissues and a bifunctional ligand able to complex with radioisotopes. Thus BANI can be used to produce radiotracers retained in hypoxic tissues and the radiotracers are applied to medical imaging of malignant tumor with hypoxic layer.
摘要翻译：本发明涉及一种用于对缺氧组织进行成像的放射性示踪剂前体，一种放射性示踪剂及其制备方法。放射性示踪剂前体BANI包括具有保留在缺氧组织中的特征的硝基咪唑官能团和能够与放射性同位素复合的双官能配体。因此，BANI可用于产生保留在缺氧组织中的放射性示踪剂，放射性示踪剂用于具有缺氧层的恶性肿瘤的医学成像。

26. 发明授权

US09394967B2 Three-dimensional shock-absorbing device 有权
标题翻译：三维减震装置
公开(公告)号：US09394967B2
公开(公告)日：2016-07-19
申请号：US14483267
申请日：2014-09-11
申请人： ATOMIC ENERGY COUNCIL-INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： Hsuan-Te Tu , Cheng-Ban Chung , Chii-Neng Ou Yang , Yi-Ru Hsu
IPC分类号： F16M13/00 , F16F15/067 , F16F15/02
CPC分类号： F16F15/067 , F16F15/021
摘要： The present invention provides a three-dimensional shock-absorbing device, which comprises a base, a carrying base, and a carrying platform. The carrying base is disposed between the base and the carrying platform. A first elastic member is disposed between carrying base and the base for providing vertical shock-absorbing effect. A first limiting groove and a sliding member are disposed between the carrying platform and the carrying base for providing horizontal shock-absorbing effect. In addition, second elastic members connected to the base are disposed on the periphery of the carrying platform for providing horizontal and vertical shock-absorbing effects concurrently and thus achieving three-dimensional shock-absorbing effects. Moreover, the present invention has more support and less tipping. Besides, it is more durable.
摘要翻译：本发明提供了一种三维减震装置，其包括基座，承载座和承载平台。承载基座设置在基座和承载平台之间。第一弹性构件设置在承载基座和基座之间，用于提供垂直的减震效果。第一限制槽和滑动构件设置在承载平台和承载基座之间，用于提供水平的减震效果。此外，连接到基座的第二弹性构件设置在承载平台的周边上，以同时提供水平和垂直的减震效果，从而实现三维冲击吸收效果。此外，本发明具有更多的支持和更少的倾销。此外，它更耐用。

27. 发明授权

US09382202B2 Precursor for labeling therapeutic agent for liver cancer and method for manufacturing the same 有权
标题翻译：用于标记肝癌治疗剂的前体及其制造方法
公开(公告)号：US09382202B2
公开(公告)日：2016-07-05
申请号：US14272682
申请日：2014-05-08
申请人： ATOMIC ENERGY COUNCIL—INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： Show-Wen Liu , Yu Chang , Cheng-Fang Hsu
IPC分类号： C07F13/00 , C07C323/25 , C07C319/20 , A61K51/04
CPC分类号： C07C323/25 , A61K51/0474 , A61K51/0478 , C07C319/20 , C07C323/60 , C07F13/00
摘要： A precursor for labeling therapeutic agents for liver cancer and a method for manufacturing the same are revealed. The chemical structure of the precursor has a ligand linked to complex compounds of radioisotopes. Moreover, the chemical structure of the precursor further includes a specific functional group soluble in Lipiodol or having properties of Lipiodol. Thus the radioisotopes attached to the precursor are allowed to retain in hepatic tissues of patients with liver cancer for internal radiation therapy of liver cancer.
摘要翻译：揭示了用于标记肝癌治疗剂的前体及其制造方法。前体的化学结构具有与放射性同位素的复合化合物连接的配体。此外，前体的化学结构还包括可溶于Lipiodol或具有Lipiodol性质的特定官能团。因此，将与前体连接的放射性同位素保留在肝癌患者的肝组织中，用于肝癌的内部放射治疗。

28. 发明授权

US09381726B2 Method for packaging secondary optical element 有权
标题翻译：二次光学元件的封装方法
公开(公告)号：US09381726B2
公开(公告)日：2016-07-05
申请号：US14451516
申请日：2014-08-05
申请人： ATOMIC ENERGY COUNCIL-INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： Yueh-Mu Lee , Zun-Hao Shih , Yi-Ping Liang , Hwa-Yuh Shin , Hwen-Fen Hong
IPC分类号： H01L31/054 , H01L31/18 , B32B37/12 , B32B37/18 , B32B37/02 , B32B38/18 , H05K13/04
CPC分类号： B32B37/12 , B32B37/02 , B32B37/18 , B32B38/18 , B32B2307/40 , B32B2457/00 , B32B2457/12 , H01L31/0543 , H01L31/18 , H05K13/0469 , Y02E10/52
摘要： The present invention relates to a method for packaging secondary optical element. By coating optical glue on the bottom surface of the secondary optical element and on the substrate and by hardening individually, as well as using the technical characteristics of flipping the substrate and the fixture, the secondary optical element can fall naturally and be positioned above an optoelectric device such as a solar cell or a light-emitting diode. No additional fastener is required for supporting the secondary optical element.
摘要翻译：本发明涉及一种二次光学元件的封装方法。通过在第二光学元件的底表面和基板上涂覆光学胶，并且通过单独硬化，以及使用翻转基板和固定装置的技术特性，二次光学元件可以自然掉落并位于光电装置如太阳能电池或发光二极管。不需要额外的紧固件来支撑次级光学元件。

29. 发明授权

US09333489B2 Confined cell structure and method of making the same 有权
标题翻译：密闭式电池结构及制作方法
公开(公告)号：US09333489B2
公开(公告)日：2016-05-10
申请号：US14094997
申请日：2013-12-03
申请人： ATOMIC ENERGY COUNCIL—INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： Yi-Ren Tzeng , Cheng-Si Tsao
IPC分类号： B01J23/42 , B01J35/10 , B01J37/06 , B01J37/12 , B01J21/18 , B01J29/06 , B01J35/00 , B01J37/02
CPC分类号： B01J23/42 , B01J21/18 , B01J29/061 , B01J35/0013 , B01J35/006 , B01J35/10 , B01J35/1028 , B01J35/1042 , B01J35/1061 , B01J35/108 , B01J37/0203 , B01J37/0207 , B01J37/0211 , B01J37/06 , B01J37/12
摘要： 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.
摘要翻译：本发明公开了一种受纳米级金属纳米粒子保护的纳米粒子的限制电池结构，以帮助将纳米级金属纳米粒子限制在电池内。此外，本发明提供了使用简单的浸渍工艺在介孔碳材料上形成所述密闭电池结构的方法。

30. 发明授权

US09096623B1 Method for preparing radiotracer precursor SnADAM 有权
标题翻译：制备放射性示踪剂前体SnADAM的方法
公开(公告)号：US09096623B1
公开(公告)日：2015-08-04
申请号：US14272676
申请日：2014-05-08
申请人： ATOMIC ENERGY COUNCIL—INSTITUTE OF NUCLEAR ENERGY RESEARCH
发明人： Ching-Yun Lee , Yu Chang , Cheng-Fang Hsu , Yueh-Feng Deng
IPC分类号： C07F7/22
CPC分类号： C07F7/2208 , C07F15/0066
摘要： A method for preparing a radiotracer precursor SnADAM is revealed. The method overcomes shortcomings of conventional synthesis methods including lower yield rate and time-consuming. Moreover, Pd/C catalyst and hydrogen gas are used to catalyze reduction reaction for avoiding the generation of a large amount of intermediate products with similar structures. Thus there is no need to perform isolation and purification processes. The yield rate of the intermediate products is also increased so that its impact on the low yield rate of the final product SnADAM is minimized. A part of the reaction is significantly accelerated by using tris(dibenzylideneacetone)-dipalladium(0) (Pd2(dba)3) as a catalyst. Thus the production time of SnADAM is shortened.
摘要翻译：揭示了制备放射性示踪剂前体SnADAM的方法。该方法克服了常规合成方法的缺点，包括较低的产率和耗时。此外，Pd / C催化剂和氢气用于催化还原反应，以避免产生大量具有类似结构的中间产物。因此，不需要进行分离和纯化过程。中间产物的产率也增加，使其对最终产品SnADAM的低产率的影响最小化。通过使用三（二亚苄基丙酮） - 二钯（0）（Pd 2（dba）3）作为催化剂，反应的一部分显着加速。因此，SnADAM的生产时间缩短。

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