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
    • 11. 发明授权
    • Method for producing SOI wafer and SOI wafer
    • 制造SOI晶圆和SOI晶圆的方法
    • US06846718B1
    • 2005-01-25
    • US09857803
    • 2000-10-13
    • Hiroji AgaNaoto TateSusumu KuwabaraKiyoshi Mitani
    • Hiroji AgaNaoto TateSusumu KuwabaraKiyoshi Mitani
    • H01L21/762H01L21/76
    • H01L21/76254Y10S438/977
    • A method for producing an SOI wafer by the hydrogen ion delamination method comprising at least a step of bonding a base wafer and a bond wafer having a micro bubble layer formed by gas ion implantation and a step of delaminating a wafer having an SOI layer at the micro bubble layer as a border, wherein, after the delamination step, the wafer having an SOI layer is subjected to a two-stage heat treatment in an atmosphere containing hydrogen or argon utilizing a rapid heating/rapid cooling apparatus (RTA) and a batch processing type furnace. Preferably, the heat treatment by the RTA apparatus is performed first. Surface roughness of an SOI layer surface delaminated by the hydrogen ion delamination method is improved over the range from short period to long period, and SOI wafers free from generation of pits due to COPs in SOI layers are efficiently produced with high throughput.
    • 一种用于通过氢离子分层方法制造SOI晶片的方法,包括至少一个步骤,即接合基底晶片和具有通过气体离子注入形成的微气泡层的接合晶片,以及将具有SOI层的晶片分层的步骤 微气泡层作为边界,其中,在分层步骤之后,使用快速加热/快速冷却装置(RTA)和批料在含氢或氩的气氛中对具有SOI层的晶片进行两级热处理 加工型炉。 优选地,首先进行RTA装置的热处理。 通过氢离子分层方法剥离的SOI层表面的表面粗糙度在短时间段到长周期的范围内得到改善,并且以高生产率有效地制造了由于SOI层中的COP而不产生凹坑的SOI晶片。
    • 14. 发明授权
    • Method of fabricating an SOI wafer and SOI wafer fabricated thereby
    • 制造SOI晶片和SOI晶片的方法
    • US6140210A
    • 2000-10-31
    • US159856
    • 1998-09-24
    • Hiroji AgaKiyoshi MitaniYukio Inazuki
    • Hiroji AgaKiyoshi MitaniYukio Inazuki
    • H01L21/265H01L21/02H01L21/762H01L27/12H01L21/30
    • H01L21/76251H01L21/76254
    • In a method of fabricating an SOI wafer, an oxide film is formed on the surface of at least one of two silicon wafers; hydrogen ions or rare gas ions are implanted into the upper surface of one of the two silicon wafers in order to form a fine bubble layer (enclosed layer) within the wafer; the ion-implanted silicon wafer is superposed on the other silicon wafer such that the ion-implanted surface comes into close contact with the surface of the other silicon wafer via the oxide film; heat treatment is performed in order to delaminate a portion of the ion-implanted wafer while the fine bubble layer is used as a delaminating plane, in order to form a thin film to thereby obtain an SOI wafer. In the method, a defect layer at the delaminated surface of the thus-obtained SOI wafer is removed to a depth of 200 nm or more through vapor-phase etching, and then mirror polishing is performed. Therefore, the obtained SOI wafer has an extremely low level of defects and a high thickness uniformity.
    • 在制造SOI晶片的方法中,在两个硅晶片中的至少一个的表面上形成氧化物膜; 将氢离子或稀有气体离子注入到两个硅晶片之一的上表面中,以便在晶片内形成微小的气泡层(封闭层); 离子注入硅晶片叠置在另一个硅晶片上,使得离子注入表面通过氧化膜与另一硅晶片的表面紧密接触; 为了形成薄膜以获得SOI晶片,进行热处理,以便在使用微细气泡层作为分层平面的情况下使离子注入的晶片的一部分分层。 在该方法中,通过气相蚀刻将由此获得的SOI晶片的分层表面的缺陷层去除至200nm以上的深度,然后进行镜面抛光。 因此,所获得的SOI晶片具有极低的缺陷水平和高的厚度均匀性。
    • 15. 发明授权
    • Method of fabricating SOI wafer
    • 制造SOI晶圆的方法
    • US07320929B2
    • 2008-01-22
    • US10522413
    • 2003-07-16
    • Hiroji AgaKiyoshi Mitani
    • Hiroji AgaKiyoshi Mitani
    • H01L21/30H01L21/46
    • H01L21/265H01L21/26506H01L21/76224H01L21/76254
    • In order to adjust thickness of a bonded silicon single crystal film 15 depending of thickness of an SOI layer 5 to be obtained, depth of formation d1+tx of a separatory ion implanted layer 4, measured from a first main surface J, in the separatory ion implanted layer formation step is adjusted through energy of the ion implantation. Dose of the ion implantation is set smaller as the depth of formation measured from the first main surface J becomes smaller. A smaller dose results in a smaller surface roughness of the separation surface, and makes it possible to reduce polishing stock removal of the separation surface of the bonded silicon single crystal film in the planarization step. Uniformity in the thickness of the SOI layer can consequently be improved even for the case where a thin SOI layer has to be formed. The present invention is therefore successful in providing a method of fabricating an SOI wafer capable of suppressing variations in the intra-wafer and inter-wafer uniformity of the thickness of the SOI layer to a sufficiently low level, even for the case where a required level of the thickness of the SOI layer is extremely small.
    • 为了根据所获得的SOI层5的厚度来调整键合硅单晶膜15的厚度,从第一主表面J测量的分离离子注入层4的形成深度d 1 + t x, 通过离子注入的能量来调节分离离子注入层形成步骤。 随着从第一主表面J测量的深度变小,离子注入的剂量变小。 较小的剂量导致分离表面的较小的表面粗糙度,并且使得可以在平坦化步骤中减少接合的硅单晶膜的分离表面的抛光原料去除。 因此,即使在必须形成薄的SOI层的情况下,也可以提高SOI层的厚度的均匀性。 因此,本发明成功地提供了一种制造SOI晶片的方法,其能够将SOI层的厚度的晶片内和晶片间均匀度的均匀度抑制到足够低的水平,即使在所需的水平的情况下 的SOI层的厚度非常小。
    • 16. 发明申请
    • Method for manufacturing soi wafer and soi wafer
    • 制造硅晶片和硅晶片的方法
    • US20060051945A1
    • 2006-03-09
    • US10544374
    • 2004-02-13
    • Isao YokokawaHiroji AgaKiyotaka TakanoKiyoshi Mitani
    • Isao YokokawaHiroji AgaKiyotaka TakanoKiyoshi Mitani
    • H01L21/425H01L21/22
    • H01L21/76243H01L21/26533
    • The present invention provides a method of producing an SOI wafer, comprising at least steps of forming an oxygen ion-implanted layer by implanting oxygen ions into a silicon wafer from one main surface thereof, subjecting the silicon wafer to oxide film-forming heat treatment to convert the oxygen ion-implanted layer into a buried oxide film, and thereby producing an SOI wafer having an SOI layer on the buried oxide film, wherein when the buried oxide film is formed in the silicon wafer, the buried oxide film is formed so that a thickness thereof is thicker than a thickness of the buried oxide film which the SOI wafer to be produced has, and thereafter the silicon wafer in which the thicker buried oxide film is formed is subjected to a heat treatment to reduce the thickness of the buried oxide film. Thereby, there can be provided a method of producing an SOI wafer in which a high quality SOI wafer having a buried oxide film of which a film thickness is thin and perfectness is high and an SOI layer of which crystallinity and surface quality are extremely good can be produced by using SIMOX method.
    • 本发明提供一种制造SOI晶片的方法,其至少包括通过从其一个主表面将氧离子注入硅晶片来形成氧离子注入层的步骤,将硅晶片进行氧化膜形成热处理 将氧离子注入层转换为埋入氧化膜,由此在埋入氧化膜上制造具有SOI层的SOI晶片,其中,当在硅晶片中形成掩埋氧化膜时,形成掩埋氧化膜,使得 其厚度比所制造的SOI晶片的埋入氧化膜的厚度厚,然后对其中形成较厚掩埋氧化膜的硅晶片进行热处理,以减小掩埋氧化物的厚度 电影。 因此,可以提供一种制造SOI晶片的方法,其中具有膜厚度薄且完整性高的掩埋氧化膜的高质量SOI晶片和结晶度和表面质量非常好的SOI层可以 使用SIMOX法生产。
    • 17. 发明授权
    • SOI wafer and method for producing the same
    • SOI晶片及其制造方法
    • US07560313B2
    • 2009-07-14
    • US10473352
    • 2002-03-29
    • Hiroji AgaKiyoshi Mitani
    • Hiroji AgaKiyoshi Mitani
    • H01L21/00
    • H01L21/76254
    • The present invention provides a SOI wafer produced by an ion implantation delamination method wherein a width of a SOI island region in a terrace portion generated in an edge portion of the SOI wafer where a surface of a base wafer is exposed is narrower than 1 mm and a density of pit-shaped defects having a size of 0.19 μm or more existing in a surface of a SOI layer detected by a LPD inspection is 1 counts/cm2 or less, and also provides a method for producing the SOI wafer. Thereby, there is provided a SOI wafer produced by an ion implantation delamination method wherein generation of SOI islands generated in delamination can be suppressed and a defect density of LPDs existing in a surface of the SOI wafer can be reduced, and a method for producing the same, so that device failure can be reduced.
    • 本发明提供一种通过离子注入分层方法制造的SOI晶片,其中在SOI晶片的边缘部分中产生的露台部分中的SOI岛区域的宽度基底晶片暴露的距离窄于1mm, 存在于通过LPD检查检测的SOI层的表面中的具有0.19μm以上的尺寸的凹坑状缺陷的密度为1个/ cm 2以下,并且还提供了SOI晶片的制造方法。 因此,提供了通过离子注入分层方法制造的SOI晶片,其中可以抑制在分层中产生的SOI岛的产生,并且可以减少存在于SOI晶片的表面中的LPD的缺陷密度,以及制造 相同,从而可以减少设备故障。
    • 18. 发明授权
    • Method of producing SOI wafer and SOI wafer
    • 制造SOI晶圆和SOI晶圆的方法
    • US07524744B2
    • 2009-04-28
    • US10544374
    • 2004-02-13
    • Isao YokokawaHiroji AgaKiyotaka TakanoKiyoshi Mitani
    • Isao YokokawaHiroji AgaKiyotaka TakanoKiyoshi Mitani
    • H01L21/425
    • H01L21/76243H01L21/26533
    • The present invention provides a method of producing an SOI wafer, comprising at least steps of forming an oxygen ion-implanted layer by implanting oxygen ions into a silicon wafer from one main surface thereof, subjecting the silicon wafer to oxide film-forming heat treatment to convert the oxygen ion-implanted layer into a buried oxide film, and thereby producing an SOI wafer having an SOI layer on the buried oxide film, wherein when the buried oxide film is formed in the silicon wafer, the buried oxide film is formed so that a thickness thereof is thicker than a thickness of the buried oxide film which the SOI wafer to be produced has, and thereafter the silicon wafer in which the thicker buried oxide film is formed is subjected to a heat treatment to reduce the thickness of the buried oxide film. Thereby, there can be provided a method of producing an SOI wafer in which a high quality SOI wafer having a buried oxide film of which a film thickness is thin and perfectness is high and an SOI layer of which crystallinity and surface quality are extremely good can be produced by using SIMOX method.
    • 本发明提供一种制造SOI晶片的方法,其至少包括通过从其一个主表面将氧离子注入硅晶片来形成氧离子注入层的步骤,将硅晶片进行氧化膜形成热处理 将氧离子注入层转换为埋入氧化膜,由此在埋入氧化膜上制造具有SOI层的SOI晶片,其中,当在硅晶片中形成掩埋氧化膜时,形成掩埋氧化膜,使得 其厚度比所制造的SOI晶片的埋入氧化膜的厚度厚,然后对其中形成较厚掩埋氧化膜的硅晶片进行热处理,以减小掩埋氧化物的厚度 电影。 因此,可以提供一种制造SOI晶片的方法,其中具有膜厚度薄且完整性高的掩埋氧化膜的高品质SOI晶片和结晶度和表面质量非常好的SOI层 使用SIMOX法生产。
    • 19. 发明授权
    • Method for producing SOI wafer and SOI wafer
    • 制造SOI晶圆和SOI晶圆的方法
    • US07176102B2
    • 2007-02-13
    • US10948234
    • 2004-09-24
    • Hiroji AgaNaota TateSusumu KuwabaraKiyoshi Mitani
    • Hiroji AgaNaota TateSusumu KuwabaraKiyoshi Mitani
    • H01L21/76
    • H01L21/76254Y10S438/977
    • A method for producing an SOI wafer by the hydrogen ion delamination method comprising at least a step of bonding a base wafer and a bond wafer having a micro bubble layer formed by gas ion implantation and a step of delaminating a wafer having an SOI layer at the micro bubble layer as a border, wherein, after the delamination step, the wafer having an SOI layer is subjected to a two-stage heat treatment in an atmosphere containing hydrogen or argon utilizing a rapid heating/rapid cooling apparatus (RTA) and a batch processing type furnace. Preferably, the heat treatment by the RTA apparatus is performed first. Surface roughness of an SOI layer surface delaminated by the hydrogen ion delamination method is improved over the range from short period to long period, and SOI wafers free from generation of pits due to COPs in SOI layers are efficiently produced with high throughput.
    • 一种用于通过氢离子分层方法制造SOI晶片的方法,包括至少一个步骤,即接合基底晶片和具有通过气体离子注入形成的微气泡层的接合晶片,以及将具有SOI层的晶片分层的步骤 微气泡层作为边界,其中,在分层步骤之后,使用快速加热/快速冷却装置(RTA)和批料在含氢或氩的气氛中对具有SOI层的晶片进行两级热处理 加工型炉。 优选地,首先进行RTA装置的热处理。 通过氢离子分层方法剥离的SOI层表面的表面粗糙度在短时间段到长周期的范围内得到改善,并且以高生产率有效地制造了由于SOI层中的COP而不产生凹坑的SOI晶片。
    • 20. 发明授权
    • Method for producing bonding wafer
    • 接合晶片的制造方法
    • US06884696B2
    • 2005-04-26
    • US10380979
    • 2002-07-09
    • Hiroji AgaShinichi TomizawaKiyoshi Mitani
    • Hiroji AgaShinichi TomizawaKiyoshi Mitani
    • H01L21/30H01L21/46H01L21/762H01L21/8238H01L27/12
    • H01L21/76254Y10S438/977
    • A method for producing a bonded wafer by the ion implantation delamination method includes at least a step of bonding a bond wafer having a micro bubble layer formed by gaseous ion implantation and a base wafer serving as a support substrate and a step of delaminating the bond wafer at the micro bubble layer as a border to form a thin film on the base wafer. After the delamination of the bond wafer, the bonded wafer is subjected to a heat treatment in an atmosphere of an inert gas, hydrogen or a mixed gas thereof, then the bonded wafer is subjected to thermal oxidation to form a thermal oxide film on the surface of the thin film, and then the thermal oxide film is removed to reduce thickness of the thin film.
    • 通过离子注入分层方法制造接合晶片的方法至少包括将具有通过气体离子注入形成的微气泡层的接合晶片与作为支撑基板的基底晶片接合的步骤和将接合晶片分层的步骤 在微气泡层作为边界在基底晶片上形成薄膜。 在接合晶片分层后,在惰性气体,氢气或其混合气体的气氛中对接合的晶片进行热处理,然后将接合的晶片进行热氧化,以在表面上形成热氧化膜 的薄膜,然后去除热氧化膜以减小薄膜的厚度。