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51. 发明授权

US08227290B2 Method for producing single crystal silicon solar cell and single crystal silicon solar cell 有权
标题翻译：单晶硅太阳能电池和单晶硅太阳能电池的制造方法
公开(公告)号：US08227290B2
公开(公告)日：2012-07-24
申请号：US11976026
申请日：2007-10-19
申请人： Atsuo Ito , Shoji Akiyama , Masahiro Furuya , Makoto Kawai , Koichi Tanaka , Yoshihiro Kubota , Yuuji Tobisaka
发明人： Atsuo Ito , Shoji Akiyama , Masahiro Furuya , Makoto Kawai , Koichi Tanaka , Yoshihiro Kubota , Yuuji Tobisaka
IPC分类号： H01L21/00
CPC分类号： H01L31/1804 , H01L31/0682 , H01L31/186 , H01L31/1896 , Y02E10/547 , Y02P70/521
摘要： A method for producing a single crystal silicon solar cell including the steps of: implanting ions into a single crystal silicon substrate through an ion implanting surface thereof; closely contacting the single crystal silicon substrate and a transparent insulator substrate with each other via a transparent adhesive while using the ion implanting surface as a bonding surface; curing the transparent adhesive; applying an impact to the ion implanted layer to mechanically delaminate the single crystal silicon substrate; forming a plurality of diffusion regions having a second conductivity type at the delaminated surface side of the single crystal silicon layer, such that a plurality of first conductivity-type regions and second conductivity-type regions are present at the delaminated surface of the single crystal silicon layer; forming pluralities of individual electrodes on the pluralities of first and second conductivity-type regions, respectively; and forming collector electrodes for the individual electrodes, respectively.
摘要翻译：一种用于制造单晶硅太阳能电池的方法，包括以下步骤：通过其离子注入表面将离子注入单晶硅衬底; 通过透明粘合剂将单晶硅衬底和透明绝缘体衬底彼此紧密接触，同时使用离子注入表面作为结合表面; 固化透明胶; 对离子注入层施加冲击以使单晶硅衬底机械分层; 在单晶硅层的分层表面侧形成具有第二导电类型的多个扩散区域，使得多个第一导电型区域和第二导电类型区域存在于单晶硅的分层表面层; 在多个第一和第二导电类型区域上分别形成多个单独的电极; 并分别形成各个电极的集电极。

52. 发明授权

US08227289B2 Method for producing single crystal silicon solar cell and single crystal silicon solar cell 有权
标题翻译：单晶硅太阳能电池和单晶硅太阳能电池的制造方法
公开(公告)号：US08227289B2
公开(公告)日：2012-07-24
申请号：US11976020
申请日：2007-10-19
申请人： Atsuo Ito , Shoji Akiyama , Makoto Kawai , Koichi Tanaka , Yuuji Tobisaka , Yoshihiro Kubota
发明人： Atsuo Ito , Shoji Akiyama , Makoto Kawai , Koichi Tanaka , Yuuji Tobisaka , Yoshihiro Kubota
IPC分类号： H01L21/00
CPC分类号： H01L31/186 , H01L31/0682 , H01L31/1804 , H01L31/1896 , Y02E10/547 , Y02P70/521
摘要： A method for producing a single crystal silicon solar cell including the steps of: implanting ions into a single crystal silicon substrate; conducting a surface activating treatment for at least one of: the ion implanting surface of the single crystal silicon substrate, and a surface of the transparent insulator substrate; bonding the ion implanting surface of the single crystal silicon substrate and the transparent insulator substrate to each other, such that the surface(s) subjected to the surface activating treatment is/are used as a bonding surface(s); applying an impact to the ion implanted layer; and forming a plurality of diffusion regions having a second conductivity type at the delaminated surface side of the single crystal silicon layer, such that a plurality of first conductivity-type regions and second conductivity-type regions are present at the delaminated surface of the single crystal silicon layer.
摘要翻译：一种单晶硅太阳能电池的制造方法，包括以下步骤：将离子注入单晶硅衬底; 对所述单晶硅衬底的离子注入表面和所述透明绝缘体衬底的表面中的至少一个进行表面活化处理; 将单晶硅衬底和透明绝缘体衬底的离子注入表面彼此接合，使得经过表面活化处理的表面被用作粘合表面; 对离子注入层施加冲击; 并且在单晶硅层的分层表面侧形成具有第二导电类型的多个扩散区域，使得多个第一导电型区域和第二导电类型区域存在于单晶层的分层表面硅层。

53. 发明授权

US08119903B2 Method of manufacturing single crystal silicon solar cell and single crystal silicon solar cell 有权
标题翻译：单晶硅太阳能电池和单晶硅太阳能电池的制造方法
公开(公告)号：US08119903B2
公开(公告)日：2012-02-21
申请号：US11984182
申请日：2007-11-14
申请人： Atsuo Ito , Shoji Akiyama , Makoto Kawai , Koichi Tanaka , Yuuji Tobisaka , Yoshihiro Kubota
发明人： Atsuo Ito , Shoji Akiyama , Makoto Kawai , Koichi Tanaka , Yuuji Tobisaka , Yoshihiro Kubota
IPC分类号： H01L31/04 , H01L31/0216 , B05D5/12
CPC分类号： H01L31/1804 , H01L31/022441 , H01L31/03921 , H01L31/056 , H01L31/0682 , H01L31/1892 , H01L31/1896 , Y02E10/52 , Y02E10/547 , Y02P70/521
摘要： There is disclosed a single crystal silicon solar cell includes the steps of: implanting hydrogen ions or rare gas ions to a single crystal silicon substrate; performing surface activation on at least one of an ion-implanted surface of the single crystal silicon substrate and a surface of a transparent insulator substrate; bonding the ion-implanted surface of the single crystal silicon substrate and the transparent insulator substrate with the surface-activated surface being set as a bonding surface; applying an impact onto the ion implanted layer to mechanically delaminate the single crystal silicon substrate to form a single crystal silicon layer; forming a plurality of diffusion regions having a second conductivity type on the delaminated plane side of the single crystal silicon layer; forming a plurality of first conductivity type regions and a plurality of second conductivity type regions on the delaminated plane of the single crystal silicon layer; and forming a light reflection film that covers the plurality of first conductivity type regions and the plurality of second conductivity type regions. There can be provided an optical confinement type single crystal silicon solar cell where a thin-film light conversion layer is made of high-crystallinity single crystal silicon.
摘要翻译：公开了一种单晶硅太阳能电池，包括以下步骤：将氢离子或稀有气体离子注入单晶硅衬底; 在单晶硅衬底的离子注入表面和透明绝缘体衬底的表面中的至少一个上进行表面活化; 将所述单晶硅衬底的离子注入表面和所述透明绝缘体衬底接合，所述表面激活表面被设置为接合表面; 对离子注入层施加冲击以机械地分层单晶硅衬底以形成单晶硅层; 在单晶硅层的分层平面侧形成具有第二导电类型的多个扩散区; 在单晶硅层的分层面上形成多个第一导电型区域和多个第二导电型区域; 以及形成覆盖所述多个第一导电类型区域和所述多个第二导电类型区域的光反射膜。可以提供一种光限制型单晶硅太阳能电池，其中薄膜光转换层由高结晶度单晶硅制成。

54. 发明申请

US20110290320A1 Method for producing single crystal silicon solar cell and single crystal silicon solar cell 审中-公开
公开(公告)号：US20110290320A1
公开(公告)日：2011-12-01
申请号：US13137215
申请日：2011-07-28
申请人： Atsuo Ito , Shoji Akiyama , Makoto Kawai , Koichi Tanaka , Yuuji Tobisaka , Yoshihiro Kubota
发明人： Atsuo Ito , Shoji Akiyama , Makoto Kawai , Koichi Tanaka , Yuuji Tobisaka , Yoshihiro Kubota
IPC分类号： H01L31/0224 , H01L31/0256 , H01L31/18
CPC分类号： H01L31/1804 , H01L31/1896 , Y02B10/10 , Y02E10/547 , Y02P70/521
摘要： A method for producing a single crystal silicon solar cell including the steps of: implanting ions into a single crystal silicon substrate through an ion implanting surface thereof to form an ion implanted layer in the single crystal silicon substrate; forming a transparent electroconductive film on a surface of a transparent insulator substrate; conducting a surface activating treatment for the ion implanting surface of the single crystal silicon substrate and/or a surface of the transparent electroconductive film on the transparent insulator substrate; bonding the ion implanting surface of the single crystal silicon substrate and the surface of the transparent electroconductive film on the transparent insulator substrate to each other; applying an impact to the ion implanted layer; and forming a p-n junction in the single crystal silicon layer.

55. 发明授权

US07935611B2 Method for manufacturing substrate for photoelectric conversion element 有权
标题翻译：光电转换元件用基板的制造方法
公开(公告)号：US07935611B2
公开(公告)日：2011-05-03
申请号：US12282176
申请日：2007-03-12
申请人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Makoto Kawai , Yuuji Tobisaka , Koichi Tanaka
发明人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Makoto Kawai , Yuuji Tobisaka , Koichi Tanaka
IPC分类号： H01L21/46 , H01L31/00
CPC分类号： H01L21/76254 , H01L31/0687 , H01L31/1804 , H01L31/1892 , Y02E10/544 , Y02E10/547 , Y02P70/521
摘要： A silicon layer having a conductivity type opposite to that of a bulk is provided on the surface of a silicon substrate and hydrogen ions are implanted to a predetermined depth into the surface region of the silicon substrate through the silicon layer to form a hydrogen ion-implanted layer. Then, an n-type germanium-based crystal layer whose conductivity type is opposite to that of the silicon layer and a p-type germanium-based crystal layer whose conductivity type is opposite to that of the germanium-based crystal layer are successively vapor-phase grown to provide a germanium-based crystal. The surface of the germanium-based crystal layer and the surface of the supporting substrate are bonded together. In this state, impact is applied externally to separate a silicon crystal from the silicon substrate along the hydrogen ion-implanted layer, thereby transferring a laminated structure composed of the germanium-based crystal and the silicon crystal onto the supporting substrate.
摘要翻译：在硅衬底的表面上提供具有与体的导电类型相反的导电类型的硅层，并且通过硅层将氢离子注入到硅衬底的表面区域中以预定深度注入到氢离子注入层。然后，其导电类型与硅层的导电类型相反的n型锗基晶体层和导电类型与锗基晶体层的导电类型相反的p型锗基晶体层连续蒸发，相生长以提供锗基晶体。锗基晶体层的表面和支撑基板的表面接合在一起。在这种状态下，外部施加冲击以沿着氢离子注入层从硅衬底分离硅晶体，从而将由锗基晶体和硅晶体组成的叠层结构转移到支撑衬底上。

56. 发明授权

US07790571B2 SOQ substrate and method of manufacturing SOQ substrate 有权
标题翻译： SOQ基板和制造SOQ基板的方法
公开(公告)号：US07790571B2
公开(公告)日：2010-09-07
申请号：US11984184
申请日：2007-11-14
申请人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Koichi Tanaka , Makoto Kawai , Yuuji Tobisaka
发明人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Koichi Tanaka , Makoto Kawai , Yuuji Tobisaka
IPC分类号： H01L21/78
CPC分类号： H01L21/3247 , H01L21/76254 , H01L29/78603
摘要： A method of manufacturing an SOQ substrate and an SOQ substrate manufactured by the same are disclosed. In the method, hydrogen ions are implanted to a surface of a single crystal Si substrate through an oxide film to uniformly form an ion implanted layer at a predetermined depth from the surface of the single crystal Si substrate, and a bonding surface of the substrate undergoes a plasma treatment or an ozone treatment. An external shock is applied onto the single crystal Si substrate and quartz substrate, which are bonded together, to mechanically delaminate a silicon film from a single crystal silicon bulk. In this way, the SOQ film is formed on the quartz substrate through the oxide film. To further smooth the SOQ film surface, hydrogen heat treatment is performed at a temperature of 1000° C. or less below a quartz glass transition point.
摘要翻译：公开了一种制造其制造的SOQ基板和SOQ基板的方法。在该方法中，通过氧化膜将氢离子注入到单晶Si衬底的表面，以在与单晶Si衬底的表面规定深度均匀地形成离子注入层，并且衬底的接合表面经历等离子体处理或臭氧处理。外部冲击被施加到结合在一起的单晶Si衬底和石英衬底上，从而将硅膜从单晶硅体块分层。以这种方式，通过氧化膜在石英衬底上形成SOQ膜。为了进一步平滑SOQ膜表面，在石英玻璃化转变点以下1000℃以下的温度下进行氢热处理。

57. 发明申请

US20100025804A1 SOI SUBSTRATE AND METHOD FOR MANUFACTURING SOI SUBSTRATE 有权
标题翻译： SOI衬底和制造SOI衬底的方法
公开(公告)号：US20100025804A1
公开(公告)日：2010-02-04
申请号：US12158047
申请日：2006-11-01
申请人： Makoto Kawai , Yoshihiro Kubota , Atsuo Ito , Koichi Tanaka , Yuuji Tobisaka , Shoji Akiyama
发明人： Makoto Kawai , Yoshihiro Kubota , Atsuo Ito , Koichi Tanaka , Yuuji Tobisaka , Shoji Akiyama
IPC分类号： H01L21/762 , H01L27/12
CPC分类号： H01L21/76254
摘要： On the side of a surface (the bonding surface side) of a single crystal Si substrate, a uniform ion implantation layer is formed at a prescribed depth (L) in the vicinity of the surface. The surface of the single crystal Si substrate and a surface of a transparent insulating substrate as bonding surfaces are brought into close contact with each other, and bonding is performed by heating the substrates in this state at a temperature of 350° C. or below. After this bonding process, an Si—Si bond in the ion implantation layer is broken by applying impact from the outside, and a single crystal silicon thin film is mechanically peeled along a crystal surface at a position equivalent to the prescribed depth (L) in the vicinity of the surface of the single crystal Si substrate.
摘要翻译：在单晶Si衬底的表面（接合面侧）侧，在表面附近以规定的深度（L）形成均匀的离子注入层。单晶Si衬底的表面和作为结合面的透明绝缘衬底的表面彼此紧密接触，并且通过在350℃或更低的温度下在该状态下加热衬底来进行接合。在该接合工艺之后，通过从外部施加冲击来破坏离子注入层中的Si-Si键，并且在等于规定深度（L）的位置上的晶体表面机械剥离单晶硅薄膜单晶Si衬底表面附近。

58. 发明授权

US07615456B2 Method for manufacturing SOI substrate 有权
标题翻译：制造SOI衬底的方法
公开(公告)号：US07615456B2
公开(公告)日：2009-11-10
申请号：US12076923
申请日：2008-03-25
申请人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Makoto Kawai , Yuuji Tobisaka , Koichi Tanaka
发明人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Makoto Kawai , Yuuji Tobisaka , Koichi Tanaka
IPC分类号： H01L21/331 , H01L21/8222
CPC分类号： H01L21/76256 , H01L27/12
摘要： A method for manufacturing an SOI substrate superior in film thickness uniformity and resistivity uniformity in a substrate surface of a silicon layer having a film thickness reduced by an etch-back method is provided. After B ions is implanted into a front surface of a single-crystal Si substrate 10 to form a high-concentration boron added p layer 11 having a depth L in the outermost front surface, the single-crystal Si substrate 10 is appressed against a quartz substrate 20 to be bonded at a room temperature. Chemical etching is performed with respect to the single-crystal Si substrate 10 from a back surface thereof to set its thickness to L or below. A heat treatment is carried out with respect to an SOI substrate in a hydrogen containing atmosphere to outwardly diffuse B from the high-concentration boron added p layer 11, thereby acquiring a boron added p layer 12 having a desired resistance value. During this heat treatment, B in an Si crystal is diffused to the outside of the crystal in a state where it is coupled with hydrogen in the atmosphere, and a B concentration in the high-concentration boron added p layer 11 is reduced. In regard to a heat treatment temperature at this time, in view of a softening point of the insulative substrate, an upper limit of the heat treatment temperature is set to 1250° C., and 700° C. is selected as a lower limit of the temperature at which B can be diffused.
摘要翻译：提供一种制造SOI衬底的方法，该SOI衬底具有通过蚀刻方法减小的膜厚度的硅层的衬底表面中的膜厚均匀性和电阻率均匀性优异的SOI衬底。在将B离子注入到单晶Si衬底10的前表面中以形成在最外表面具有深度L的高浓度硼添加p层11之后，将单晶Si衬底10贴在石英基板20在室温下结合。从其背面对单晶硅基板10进行化学蚀刻，将其厚度设定为L以下。对含氢气氛中的SOI衬底进行热处理，从高浓度硼添加p层11向外扩散B，从而获得具有所需电阻值的添加硼的p层12。在该热处理中，Si结晶中的B在与大气中的氢相结合的状态下扩散到晶体外部，并且在高浓度硼添加p层11中的B浓度降低。就此时的热处理温度而言，考虑到绝缘基板的软化点，将热处理温度的上限设定为1250℃，选择700℃为下限值 B可以扩散的温度。

59. 发明申请

US20090111242A1 Method for producing semiconductor substrate 有权
标题翻译：半导体衬底的制造方法
公开(公告)号：US20090111242A1
公开(公告)日：2009-04-30
申请号：US12230984
申请日：2008-09-09
申请人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Makoto Kawai , Yuuji Tobisaka , Koichi Tanaka
发明人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Makoto Kawai , Yuuji Tobisaka , Koichi Tanaka
IPC分类号： H01L21/762
CPC分类号： H01L21/76254
摘要： An object of the present invention is to provide a method by which bonding at a low temperature is possible and an amount of metal contaminants in an SOI film is decreased. An embodiment of the present invention is realized in the following manner. A single crystal silicon substrate 10 surface-activated by a plasma-treatment and a quartz substrate 20 are bonded together at a low temperature, to which an external impact is given to mechanically delaminate silicon film from a single crystal silicon bulk thereby obtaining a semiconductor substrate (SOI substrate) having a silicon film (SOI film) 12. Next, the SOI substrate is subjected to a heat-treatment at a temperature of 600° C. to 1250° C. so that metal impurities accidentally mixed into an interface of the SOI film and the quartz substrate and into the SOI film in such a step as a plasma-treatment are gettered to a surface region of the silicon film 12. Then, in the end, a surface layer (gettering layer) of the silicon film 12 of the SOI substrate after the heat-treatment is removed to finally prepare an SOI film 13 and a semiconductor substrate (SOI substrate) is obtained.
摘要翻译：本发明的目的是提供一种可以在低温下进行接合并降低SOI膜中的金属污染物的量的方法。以下述方式实现本发明的实施例。通过等离子体处理表面激活的单晶硅衬底10和石英衬底20在低温下被接合在一起，对其进行外部冲击以将硅膜从单晶硅体层剥离，从而获得半导体衬底（SOI衬底）12。接下来，将SOI衬底在600℃至1250℃的温度下进行热处理，使得金属杂质意外地混入到 SOI膜和石英衬底以及诸如等离子体处理的步骤中的SOI膜被吸收到硅膜12的表面区域。然后，最后，将硅膜12的表面层（吸气层）的SOI基板，最终制作SOI膜13，得到半导体基板（SOI基板）。

60. 发明申请

US20090061591A1 METHOD FOR MANUFACTURING SOI SUBSTRATE 有权
标题翻译：制造SOI衬底的方法
公开(公告)号：US20090061591A1
公开(公告)日：2009-03-05
申请号：US12162134
申请日：2007-02-08
申请人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Makoto Kawai , Yuuji Tobisaka , Koichi Tanaka
发明人： Shoji Akiyama , Yoshihiro Kubota , Atsuo Ito , Makoto Kawai , Yuuji Tobisaka , Koichi Tanaka
IPC分类号： H01L21/762
CPC分类号： H01L21/76254
摘要： A hydrogen ion-implanted layer is formed on the surface side of a first substrate which is a single-crystal silicon substrate. At least one of the surface of a second substrate, which is a transparent insulating substrate, and the surface of the first substrate is subjected to surface activation treatment, and the two substrates are bonded together. The bonded substrate composed of the single-crystal Si substrate and the transparent insulating substrate thus obtained is mounted on a susceptor and is placed under an infrared lamp. Light having a wave number range including an Si—H bond absorption band is irradiated at the bonded substrate for a predetermined length of time to break the Si—H bonds localized within a “microbubble layer” in the hydrogen ion-implanted layer, thereby separating a silicon thin film layer.
摘要翻译：在作为单晶硅衬底的第一衬底的表面侧上形成氢离子注入层。作为透明绝缘基板的第二基板的表面和第一基板的表面中的至少一个进行表面活化处理，并且将两个基板接合在一起。将由单晶Si衬底和由此获得的透明绝缘衬底构成的键合衬底安装在基座上并放置在红外灯下。在键合衬底上照射具有Si-H键吸收带的波数范围的光，以预定的时间长度，以破坏位于氢离子注入层中的“微泡层”内的Si-H键，从而分离硅薄膜层。

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