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    • 1. 发明申请
    • METHOD FOR MANUFACTURING BONDED SUBSTRATE
    • 制造粘结基板的方法
    • US20110104871A1
    • 2011-05-05
    • US12934788
    • 2009-04-10
    • Yuji TobisakaYoshihiro KubotaAtsuo ItoKouichi TanakaMakoto KawaiShoji AkiyamaHiroshi Tamura
    • Yuji TobisakaYoshihiro KubotaAtsuo ItoKouichi TanakaMakoto KawaiShoji AkiyamaHiroshi Tamura
    • H01L21/762
    • H01L21/187H01L21/76254
    • Provided is a method for manufacturing a bonded wafer with a good thin film over the entire substrate surface, especially in the vicinity of the lamination terminal point. The method for manufacturing a bonded wafer comprises at least the following steps of: forming an ion-implanted region by implanting a hydrogen ion or a rare gas ion, or the both types of ions from a surface of a first substrate which is a semiconductor substrate; subjecting at least one of an ion-implanted surface of the first substrate and a surface of a second substrate to be attached to a surface activation treatment; laminating the ion-implanted surface of the first substrate and the surface of the second substrate in an atmosphere with a humidity of 30% or less and/or a moisture content of 6 g/m3 or less; and a splitting the first substrate at the ion-implanted region so as to reduce thickness of the first substrate, thereby manufacturing a bonded wafer with a thin film on the second substrate.
    • 提供一种在整个基板表面上,特别是在层叠终点附近制造具有良好薄膜的接合晶片的方法。 制造接合晶片的方法至少包括以下步骤:通过从作为半导体衬底的第一衬底的表面注入氢离子或稀有气体离子或两种离子形成离子注入区域 ; 对第一基板的离子注入表面和第二基板的表面中的至少一个进行表面活化处理; 将第一基板的离子注入表面和第二基板的表面在湿度为30%以下和/或6g / m 3以下的气氛中层压; 以及在离子注入区域处分裂第一衬底以便减小第一衬底的厚度,由此在第二衬底上制造具有薄膜的接合晶片。
    • 2. 发明授权
    • Method for manufacturing bonded wafer
    • 贴合晶圆的制造方法
    • US08314006B2
    • 2012-11-20
    • US12934788
    • 2009-04-10
    • Yuji TobisakaYoshihiro KubotaAtsuo ItoKouichi TanakaMakoto KawaiShoji AkiyamaHiroshi Tamura
    • Yuji TobisakaYoshihiro KubotaAtsuo ItoKouichi TanakaMakoto KawaiShoji AkiyamaHiroshi Tamura
    • H01L21/30H01L21/46
    • H01L21/187H01L21/76254
    • Provided is a method for manufacturing a bonded wafer with a good thin film over the entire substrate surface, especially in the vicinity of the lamination terminal point. The method for manufacturing a bonded wafer comprises at least the following steps of: forming an ion-implanted region by implanting a hydrogen ion or a rare gas ion, or the both types of ions from a surface of a first substrate which is a semiconductor substrate; subjecting at least one of an ion-implanted surface of the first substrate and a surface of a second substrate to be attached to a surface activation treatment; laminating the ion-implanted surface of the first substrate and the surface of the second substrate in an atmosphere with a humidity of 30% or less and/or a moisture content of 6 g/m3 or less; and a splitting the first substrate at the ion-implanted region so as to reduce thickness of the first substrate, thereby manufacturing a bonded wafer with a thin film on the second substrate.
    • 提供一种在整个基板表面上,特别是在层叠终点附近制造具有良好薄膜的接合晶片的方法。 制造接合晶片的方法至少包括以下步骤:通过从作为半导体衬底的第一衬底的表面注入氢离子或稀有气体离子或两种离子形成离子注入区域 ; 对第一基板的离子注入表面和第二基板的表面中的至少一个进行表面活化处理; 将第一基板的离子注入表面和第二基板的表面在湿度为30%以下和/或6g / m 3以下的气氛中层压; 以及在离子注入区域处分裂第一衬底以便减小第一衬底的厚度,由此在第二衬底上制造具有薄膜的接合晶片。
    • 3. 发明申请
    • METHOD FOR MANUFACTURING SOI WAFER
    • SOI WAFER制造方法
    • US20110003462A1
    • 2011-01-06
    • US12920363
    • 2009-03-23
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKouichi TanakaMakoto KawaiYuji TobisakaHiroshi Tamura
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKouichi TanakaMakoto KawaiYuji TobisakaHiroshi Tamura
    • H01L21/306
    • H01L21/76254H01L21/30608
    • Provided is a method for manufacturing an SOI wafer, which is capable of: efficiently removing an ion-implanted defect layer existing in an ion implanted layer in the vicinity of a peeled surface peeled by an ion implantation peeling method; ensuring the in-plane uniformity of a substrate; and also achieving cost reduction and higher throughput. The method for manufacturing an SOI wafer includes at least the steps of: bonding a silicon wafer with or without an oxide film onto a handle wafer to prepare a bonded substrate, wherein the silicon wafer has an ion implanted layer formed by implanting hydrogen ions and/or rare gas ions into the silicon wafer; peeling the silicon wafer along the ion implanted layer, thereby transferring the silicon wafer onto the handle wafer to produce a post-peeling SOI wafer; immersing the post-peeling SOI wafer in an aqueous ammonia-hydrogen peroxide solution; and performing a heat treatment at a temperature of 900° C. or higher on the immersed post-peeling SOI wafer, and/or polishing a silicon film layer of the immersed post-peeling SOI wafer, through CMP polishing by 10 to 50 nm.
    • 提供一种SOI晶片的制造方法,其能够:有效地除去通过离子注入剥离法剥离的剥离面附近的离子注入层中存在的离子注入缺陷层; 确保基板的面内均匀性; 并且还实现成本降低和更高的吞吐量。 制造SOI晶片的方法至少包括以下步骤:将具有或不具有氧化物膜的硅晶片接合到处理晶片上以制备键合衬底,其中所述硅晶片具有通过注入氢离子形成的离子注入层和/ 或稀有气体离子进入硅晶片; 沿着离子注入层剥离硅晶片,从而将硅晶片转移到处理晶片上以产生剥离后的SOI晶片; 将剥离后的SOI晶片浸渍在氨 - 过氧化氢水溶液中; 在浸渍的剥离后的SOI晶片上,在900℃以上的温度下进行热处理,和/或通过CMP研磨10〜50nm来研磨浸渍的剥离后的SOI晶片的硅膜层。
    • 4. 发明授权
    • Method for producing SOI substrate
    • SOI衬底的制造方法
    • US07749870B2
    • 2010-07-06
    • US12383834
    • 2009-03-27
    • Makoto KawaiYoshihiro KubotaAtsuo ItoKouichi TanakaYuji TobisakaShoji AkiyamaHiroshi Tamura
    • Makoto KawaiYoshihiro KubotaAtsuo ItoKouichi TanakaYuji TobisakaShoji AkiyamaHiroshi Tamura
    • H01L21/322
    • H01L21/76254Y10S438/964Y10S438/967
    • Provided is a method for producing an SOI substrate comprising a transparent insulating substrate and a silicon film formed on a first major surface of the insulating substrate wherein a second major surface of the insulating substrate which is opposite to the major surface is roughened, the method suppressing the generation of metal impurities and particles in a simple and easy way. More specifically, provided is a method for producing an SOI substrate comprising a transparent insulating substrate, a silicon film formed on a first major surface of the transparent insulating substrate, and a roughened second major surface, which is opposite to the first major surface, the method comprising steps of: providing the transparent insulating substrate, mirror surface-processing at least the first major surface of the transparent insulating substrate, forming a silicon film on the first major surface of the transparent insulating substrate, and laser-processing the second major surface of the transparent insulating substrate so as to roughen the second major surface by using a laser.
    • 提供一种制造SOI基板的方法,该SOI基板包括透明绝缘基板和形成在绝缘基板的第一主表面上的硅膜,其中绝缘基板的与主表面相对的第二主表面被粗糙化,该方法抑制 以简单方便的方式生成金属杂质和颗粒。 更具体地说,提供一种SOI基板的制造方法,其包括透明绝缘基板,形成在透明绝缘基板的第一主表面上的硅膜和与第一主表面相对的粗糙化的第二主表面, 方法包括以下步骤:提供透明绝缘基板,至少透明绝缘基板的第一主表面进行镜面处理,在透明绝缘基板的第一主表面上形成硅膜,并且对第二主表面进行激光加工 的透明绝缘基板,以便通过使用激光使第二主表面粗糙化。
    • 5. 发明授权
    • Method for producing SOI substrate
    • SOI衬底的制造方法
    • US08420503B2
    • 2013-04-16
    • US12933113
    • 2009-04-01
    • Shoji AkiyamaMakoto KawaiAtsuo ItoYoshihiro KubotaKouichi TanakaYuji TobisakaHiroshi Tamura
    • Shoji AkiyamaMakoto KawaiAtsuo ItoYoshihiro KubotaKouichi TanakaYuji TobisakaHiroshi Tamura
    • H01L21/762
    • H01L21/76254H01L27/12
    • A method for easily manufacturing a transparent SOI substrate having: a main surface with a silicon film formed thereon; and a rough main surface located on a side opposite to a side where the silicon film is formed. A method for manufacturing transparent SOI substrate, having a silicon film formed on a first main surface of the transparent insulating substrate, while a second main surface of the transparent insulating substrate, an opposite to the first main surface, is roughened. The method includes at least the steps of: roughening the first main surface with an RMS surface roughness lower than 0.7 nm and the second main surface with an RMS surface roughness higher than the surface roughness of the first main surface to prepare the transparent insulating substrate; and forming the silicon film on the first main surface of the transparent insulating substrate.
    • 一种容易制造透明SOI衬底的方法,其具有:形成有硅膜的主表面; 以及位于与形成硅膜的一侧相反一侧的粗糙主表面。 制造透明SOI衬底的方法,其中在透明绝缘衬底的第一主表面上形成硅膜,同时透明绝缘衬底的与第一主表面相反的第二主表面被粗糙化。 该方法至少包括以下步骤:使RMS表面粗糙度低于0.7nm的第一主表面粗糙化,并且第二主表面的RMS表面粗糙度高于第一主表面的表面粗糙度,以制备透明绝缘基板; 以及在所述透明绝缘基板的所述第一主表面上形成所述硅膜。
    • 6. 发明授权
    • Method for manufacturing SOI wafer
    • 制造SOI晶圆的方法
    • US08357586B2
    • 2013-01-22
    • US12920363
    • 2009-03-23
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKouichi TanakaMakoto KawaiYuji TobisakaHiroshi Tamura
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKouichi TanakaMakoto KawaiYuji TobisakaHiroshi Tamura
    • H01L21/46H01L21/30H01L21/762
    • H01L21/76254H01L21/30608
    • Provided is a method for manufacturing an SOI wafer, which is capable of: efficiently removing an ion-implanted defect layer existing in an ion implanted layer in the vicinity of a peeled surface peeled by an ion implantation peeling method; ensuring the in-plane uniformity of a substrate; and also achieving cost reduction and higher throughput. The method for manufacturing an SOI wafer includes at least the steps of: bonding a silicon wafer with or without an oxide film onto a handle wafer to prepare a bonded substrate, wherein the silicon wafer has an ion implanted layer formed by implanting hydrogen ions and/or rare gas ions into the silicon wafer; peeling the silicon wafer along the ion implanted layer, thereby transferring the silicon wafer onto the handle wafer to produce a post-peeling SOI wafer; immersing the post-peeling SOI wafer in an aqueous ammonia-hydrogen peroxide solution; and performing a heat treatment at a temperature of 900° C. or higher on the immersed post-peeling SOI wafer, and/or polishing a silicon film layer of the immersed post-peeling SOI wafer, through CMP polishing by 10 to 50 nm.
    • 提供一种SOI晶片的制造方法,其能够:有效地除去通过离子注入剥离法剥离的剥离面附近的离子注入层中存在的离子注入缺陷层; 确保基板的面内均匀性; 并且还实现成本降低和更高的吞吐量。 制造SOI晶片的方法至少包括以下步骤:将具有或不具有氧化物膜的硅晶片接合到处理晶片上以制备键合衬底,其中所述硅晶片具有通过注入氢离子形成的离子注入层和/ 或稀有气体离子进入硅晶片; 沿着离子注入层剥离硅晶片,从而将硅晶片转移到处理晶片上以产生剥离后的SOI晶片; 将剥离后的SOI晶片浸渍在氨 - 过氧化氢水溶液中; 并在浸渍的剥离后的SOI晶片上进行900℃以上的温度的热处理,和/或通过CMP研磨10〜50nm来研磨浸渍的剥离后的SOI晶片的硅膜层。
    • 9. 发明申请
    • Method for producing soi substrate
    • 生产基材的方法
    • US20090246935A1
    • 2009-10-01
    • US12383834
    • 2009-03-27
    • Makoto KawaiYoshihiro KubotaAtsuo ItoKouichi TanakaYuji TobisakaShoji AkiyamaHiroshi Tamura
    • Makoto KawaiYoshihiro KubotaAtsuo ItoKouichi TanakaYuji TobisakaShoji AkiyamaHiroshi Tamura
    • H01L21/762
    • H01L21/76254Y10S438/964Y10S438/967
    • Provided is a method for producing an SOI substrate comprising a transparent insulating substrate and a silicon film formed on a first major surface of the insulating substrate wherein a second major surface of the insulating substrate which is opposite to the major surface is roughened, the method suppressing the generation of metal impurities and particles in a simple and easy way. More specifically, provided is a method for producing an SOI substrate comprising a transparent insulating substrate, a silicon film formed on a first major surface of the transparent insulating substrate, and a roughened second major surface, which is opposite to the first major surface, the method comprising steps of: providing the transparent insulating substrate, mirror surface-processing at least the first major surface of the transparent insulating substrate, forming a silicon film on the first major surface of the transparent insulating substrate, and laser-processing the second major surface of the transparent insulating substrate so as to roughen the second major surface by using a laser.
    • 提供一种制造SOI基板的方法,该SOI基板包括透明绝缘基板和形成在绝缘基板的第一主表面上的硅膜,其中绝缘基板的与主表面相对的第二主表面被粗糙化,该方法抑制 以简单方便的方式生成金属杂质和颗粒。 更具体地说,提供一种SOI基板的制造方法,其包括透明绝缘基板,形成在透明绝缘基板的第一主表面上的硅膜和与第一主表面相对的粗糙化的第二主表面, 方法包括以下步骤:提供透明绝缘基板,至少透明绝缘基板的第一主表面进行镜面处理,在透明绝缘基板的第一主表面上形成硅膜,并且对第二主表面进行激光加工 的透明绝缘基板,以便通过使用激光使第二主表面粗糙化。