会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Method for manufacturing SOI wafer
    • 制造SOI晶圆的方法
    • US08268700B2
    • 2012-09-18
    • US12153160
    • 2008-05-14
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • H01L21/30
    • H01L21/76254
    • There is disclosed a method for manufacturing an SOI wafer comprising at least: implanting a hydrogen ion, a rare gas ion, or both the ions into a donor wafer formed of a silicon wafer or a silicon wafer having an oxide film formed on a surface thereof from a surface of the donor wafer, thereby forming an ion implanted layer; performing a plasma activation treatment with respect to at least one of an ion implanted surface of the donor wafer and a surface of a handle wafer, the surface of the handle wafer is to be bonded to the ion implanted surface; closely bonding these surfaces to each other; mechanically delaminating the donor wafer at the ion implanted layer as a boundary and thereby reducing a film thickness thereof to provide an SOI layer, and performing a heat treatment at 600 to 1000° C.; and polishing a surface of the SOI layer for 10 to 50 nm based on chemical mechanical polishing.A method for manufacturing with excellent productivity an SOI wafer having an SOI layer with a mirror-finished surface and high film thickness uniformity can be provided.
    • 公开了一种制造SOI晶片的方法,该方法至少包括:将氢离子,稀有气体离子或两者离子注入到由硅晶片或具有在其表面上形成的氧化膜的硅晶片形成的施主晶片中 从施主晶片的表面,从而形成离子注入层; 对施主晶片的离子注入表面和处理晶片的表面中的至少一个进行等离子体激活处理,把手晶片的表面与离子注入表面结合; 将这些表面彼此紧密结合; 以离子注入层的施主晶片作为边界进行机械分层,由此降低其膜厚以提供SOI层,并在600〜1000℃下进行热处理。 并且基于化学机械抛光将SOI层的表面抛光10至50nm。 可以提供具有优异的生产率的具有SOI层的具有镜面精加工表面和高膜厚均匀性的SOI晶片的方法。
    • 3. 发明授权
    • Method for manufacturing pyrolytic boron nitride composite substrate
    • 制造热解氮化硼复合基板的方法
    • US07879175B2
    • 2011-02-01
    • US12078276
    • 2008-03-28
    • Makoto KawaiYoshihiro KubotaAtsuo ItoKoichi TanakaYuuji TobisakaShoji Akiyama
    • Makoto KawaiYoshihiro KubotaAtsuo ItoKoichi TanakaYuuji TobisakaShoji Akiyama
    • B32B38/10
    • H01L21/76254C23C14/48
    • Wettability of a PBN material surface with respect to a metal is improved to expand use applications. Hydrogen ions are implanted into a surface of a silicon substrate 10 to form an ion implanted region 11 at a predetermined depth near a surface of the silicon substrate 10, and a plasma treatment or an ozone treatment is performed with respect to a main surface of the silicon substrate 10 for the purpose of surface cleaning or surface activation. The main surfaces of the silicon substrate 10 and a PBN substrate 20 subjected to the surface treatment are appressed against each other to be bonded at a room temperature, and an external impact shock is given to the bonded substrate to mechanically delaminate a silicon film 12 from a bulk 13 of the silicon substrate to be transferred. An obtained PBN composite substrate 30 is diced to form a chip having a desired size, and a refractory metal is metallized on the silicon film 12 side to be connected with a wiring material.
    • PBN材料表面相对于金属的润湿性得到改善以扩大使用应用。 将氢离子注入到硅衬底10的表面中以在硅衬底10的表面附近的预定深度处形成离子注入区11,并且相对于硅衬底10的主表面进行等离子体处理或臭氧处理 硅基板10,用于表面清洁或表面活化。 经过表面处理的硅衬底10和PBN衬底20的主表面在室温下相互粘合,并且对键合衬底施加外部冲击冲击,从而将硅膜12从 待转移的硅衬底的体积13。 将获得的PBN复合基板30切割成具有所需尺寸的芯片,并且将难熔金属在硅膜12侧金属化以与布线材料连接。
    • 4. 发明申请
    • Method for manufacturing semiconductor substrate
    • 半导体衬底的制造方法
    • US20100311221A1
    • 2010-12-09
    • US12805582
    • 2010-08-06
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • H01L21/762
    • H01L21/76254H01L27/1266H01L29/78603
    • Hydrogen ions are implanted to a surface (main surface) of the single crystal Si substrate 10 at a dosage of 1.5×1017 atoms/cm2 or higher to form the hydrogen ion implanted layer (ion-implanted damage layer) 11. As a result of the hydrogen ion implantation, the hydrogen ion implanted boundary 12 is formed. The single crystal Si substrate 10 and the low melting glass substrate 20 are bonded together. The bonded substrate is heated at relatively low temperature, 120° C. or higher and 250° C. or lower (below a melting point of the support substrate). Further, an external shock is applied to delaminate the Si crystal film along the hydrogen ion implanted boundary 12 of the single crystal Si substrate 10 out of the heat-treated bonded substrate. Then, the surface of the resultant silicon thin film 13 is polished to remove a damaged portion, so that a semiconductor substrate can be fabricated. There can be provided a semiconductor substrate in which a high-quality silicon thin film is transferred onto a substrate made of a low melting point material.
    • 将氢离子以1.5×10 17原子/ cm 2或更高的剂量注入单晶Si衬底10的表面(主表面),以形成氢离子注入层(离子注入损伤层)11。 氢离子注入,形成氢离子注入边界12。 单晶Si衬底10和低熔点玻璃衬底20结合在一起。 键合衬底在相对较低的温度,120℃或更高和250℃或更低(低于支撑衬底的熔点)下加热。 此外,施加外部冲击以沿着经热处理的键合衬底的单晶Si衬底10的氢离子注入边界12将Si晶体膜分层。 然后,对所得的硅薄膜13的表面进行抛光以去除损坏部分,从而可以制造半导体衬底。 可以提供一种半导体衬底,其中将高质量的硅薄膜转移到由低熔点材料制成的衬底上。
    • 7. 发明申请
    • Method for manufacturing SOI wafer
    • 制造SOI晶圆的方法
    • US20080299742A1
    • 2008-12-04
    • US12153519
    • 2008-05-20
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • H01L21/86
    • H01L21/76254H01L21/3065H01L22/12H01L22/20H01L2924/014
    • There is disclosed a method for manufacturing an SOI wafer comprising: a step of implanting at least one of a hydrogen ion and a rare gas ion into a donor wafer to form an ion implanted layer; a step of bonding an ion implanted surface of the donor wafer to a handle wafer; a step of delaminating the donor wafer at the ion implanted layer to reduce a film thickness of the donor wafer, thereby providing an SOI layer; and a step of etching the SOI layer to reduce a thickness of the SOI layer, wherein the etching step includes: a stage of performing rough etching as wet etching; a stage of measuring a film thickness distribution of the SOI layer after the rough etching; and a stage of performing precise etching as dry etching based on the measured film thickness distribution of the SOI layer. There can be provided A method for manufacturing an SOI wafer having high film thickness uniformity of an SOI layer with excellent productivity.
    • 公开了一种用于制造SOI晶片的方法,包括:将氢离子和稀有气体离子中的至少一种注入施主晶片以形成离子注入层的步骤; 将施主晶片的离子注入表面接合到处理晶片的步骤; 在离子注入层分层施主晶片以降低施主晶片的膜厚,从而提供SOI层的步骤; 以及蚀刻所述SOI层以减小所述SOI层的厚度的步骤,其中所述蚀刻步骤包括:执行粗蚀刻的阶段,如湿蚀刻; 在粗蚀刻之后测量SOI层的膜厚分布的阶段; 以及基于所测量的SOI层的膜厚分布,进行干蚀刻的精确蚀刻的阶段。 可以提供一种以优异的生产率制造具有SOI层的高膜厚均匀性的SOI晶片的方法。
    • 8. 发明申请
    • Method for manufacturing semiconductor substrate
    • 半导体衬底的制造方法
    • US20080194078A1
    • 2008-08-14
    • US12010711
    • 2008-01-29
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • H01L21/20
    • H01L21/76254H01L21/02381H01L21/0245H01L21/02532H01L21/0262
    • To obtain a semiconductor substrate having a high-quality Ge-based epitaxial film in a large area, a SiGe mixed crystal buffer layer and a Ge epitaxial film is grown on a main surface of a Si substrate 10. Although high-density defects are introduced in the Ge epitaxial film 11 from an interface between the Ge epitaxial film 11 and the Si substrate 10, the Ge epitaxial film is subjected to a heat treatment at a temperature of not less than 700° C. and not more than 900° C. to cause threading dislocations 12 to change into dislocation-loop defects 12′ near the interface between the Ge epitaxial film 11 and the Si substrate. A main surface of at least one of the Ge epitaxial film 11 with an ion implanted layer and a support substrate 20 is then subjected to a plasma treatment or ozone treatment for the purpose of surface cleaning, surface activation, and the like, after which the main surfaces of the Ge epitaxial film 11 and the support substrate 20 are appressed against and bonded to each other with their surfaces being determined as the joint surfaces. An external impact is then applied to the bonding interface, causing the Ge epitaxial film to be delaminated along a hydrogen ion implanted interface 13, thus obtaining a Ge thin film 14. A surface of the Ge thin film 14 is subsequently subjected to a final surface treatment (for example, CMP) to remove the damage caused by the hydrogen ion implantation, thus resulting in a GeOI substrate having the Ge thin film 14 on the surface thereof.
    • 为了获得大面积地具有高质量Ge基外延膜的半导体衬底,在Si衬底10的主表面上生长SiGe混晶缓冲层和Ge外延膜。 虽然在Ge外延膜11和Si衬底10之间的界面上在Ge外延膜11中引入高密度缺陷,但Ge外延膜在不低于700℃的温度下进行热处理, 不超过900℃导致穿透位错12变为位于Ge外延膜11和Si衬底之间的界面附近的位错环缺陷12'。 为了表面清洁,表面活化等目的,对具有离子注入层的Ge外延膜11和支撑基板20中的至少一个的主表面进行等离子体处理或臭氧处理,之后, Ge外延膜11和支撑基板20的主表面以其表面被确定为接合表面而相互贴合并彼此结合。 然后对接合界面施加外部冲击,使得Ge外延膜沿着氢离子注入界面13分层,从而获得Ge薄膜14。 随后,对Ge薄膜14的表面进行最终表面处理(例如CMP),以消除由氢离子注入引起的损伤,从而得到其表面上具有Ge薄膜14的GeOI基板。
    • 9. 发明申请
    • SOQ substrate and method of manufacturing SOQ substrate
    • SOQ基板和制造SOQ基板的方法
    • US20080119028A1
    • 2008-05-22
    • US11984184
    • 2007-11-14
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • Shoji AkiyamaYoshihiro KubotaAtsuo ItoKoichi TanakaMakoto KawaiYuuji Tobisaka
    • H01L21/30
    • H01L21/3247H01L21/76254H01L29/78603
    • To lower a process temperature for an SOQ substrate manufacturing process to reduce the degree of surface roughness of an SOQ film and provide a high-quality SOQ substrate.Hydrogen ions are implanted to a surface of a single crystal Si substrate 10 through an oxide film 11 to uniformly form an ion implanted layer 12 at a predetermined depth (average ion implantation depth L) from the surface of the single crystal Si substrate 10, 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 10 and quartz substrate 20, which are bonded together, to mechanically delaminate a silicon film 13 from a single crystal silicon bulk 14. In this way, the SOQ film 13 is formed on the quartz substrate 20 through the oxide film 11. 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. When measuring surface roughness of an SOQ film after performing hydrogen heat treatment on a sample having surface roughness of about 5 nm in terms of RMS average value immediately after delamination, a satisfactory measurement result of 0.3 nm or less in terms of RMS average value was obtained.
    • 为了降低SOQ基板制造工艺的工艺温度以降低SOQ膜的表面粗糙度并提供高质量的SOQ基板。 通过氧化膜11将氢离子注入到单晶Si衬底10的表面,以从单晶硅衬底10的表面以预定深度(平均离子注入深度L)均匀地形成离子注入层12,以及 基板的接合面进行等离子体处理或臭氧处理。 对结合在一起的单晶Si衬底10和石英衬底20施加外部冲击,从而将硅膜13与单晶硅体14机械地分层。这样,SOQ膜13形成在石英 基板20通过氧化膜11.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。 在对分层后的RMS平均值的表面粗糙度约为5nm的样品进行氢热处理后,测定SOQ膜的表面粗糙度,得到满意的平均值为0.3nm以下的测定结果 。
    • 10. 发明申请
    • Method for producing single crystal silicon solar cell and single crystal silicon solar cell
    • 单晶硅太阳能电池和单晶硅太阳能电池的制造方法
    • US20080099065A1
    • 2008-05-01
    • US11907902
    • 2007-10-18
    • Atsuo ItoShoji AkiyamaMakoto KawaiKoichi TanakaYuuji TobisakaYoshihiro Kubota
    • Atsuo ItoShoji AkiyamaMakoto KawaiKoichi TanakaYuuji TobisakaYoshihiro Kubota
    • H01L31/04B29C65/00
    • H01L31/1804H01L31/1896Y02B10/10Y02E10/547Y02P70/521
    • There is disclosed a method for producing a single crystal silicon solar cell comprising the steps of: implanting hydrogen ions or rare gas 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 to mechanically delaminate the single crystal silicon substrate thereat to leave a single crystal silicon layer; and forming a p-n junction in the single crystal silicon layer. There can be provided a single crystal silicon solar cell where a light conversion layer is provided as a thin-film for effective utilization of silicon as a starting material of the silicon solar cell, which single crystal silicon solar cell is excellent in conversion characteristics and is less in degradation due to light irradiation, and which single crystal silicon solar cell is provided as a see-through type solar cell that is usable as a natural lighting window material of a house or the like.
    • 公开了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氢离子或稀有气体离子注入到单晶硅衬底中,以在单晶硅衬底中形成离子注入层; 在透明绝缘体基板的表面上形成透明导电膜; 对透明绝缘体基板上的单晶硅衬底的离子注入表面和/或透明导电膜的表面进行表面激活处理; 将透明绝缘体基板上的单晶硅衬底的离子注入表面和透明导电膜的表面彼此接合; 对离子注入层施加冲击以在其上机械分层单晶硅衬底以留下单晶硅层; 并在单晶硅层中形成p-n结。 可以提供一种单晶硅太阳能电池,其中提供光转换层作为有效利用硅作为硅太阳能电池的起始材料的薄膜,该单晶硅太阳能电池的转换特性优异,并且是 由于光照射而导致的劣化较少,并且提供单晶硅太阳能电池作为可用作房屋等的自然采光窗材料的透明型太阳能电池。