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
    • 3. 发明授权
    • Equipment for high volume manufacture of group III-V semiconductor materials
    • III-V族III族半导体材料大批量生产设备
    • US09580836B2
    • 2017-02-28
    • US12305574
    • 2007-11-16
    • Chantal ArenaChristiaan Werkhoven
    • Chantal ArenaChristiaan Werkhoven
    • C23C16/00C30B25/14C30B29/40C30B35/00
    • C30B25/14C30B29/406C30B35/00
    • The invention relates to methods and apparatus that are optimized for producing Group III-N (nitrogen) compound semiconductor wafers and specifically GaN wafers. Specifically, the methods relate to substantially preventing the formation of unwanted materials on an isolation valve fixture within a chemical vapor deposition (CVD) reactor. The invention provides apparatus and methods for limiting deposition/condensation of GaCl3 and reaction by-products on an isolation valve that is used in the system and method for forming a monocrystalline Group III-V semiconductor material by reacting an amount of a gaseous Group III precursor as one reactant with an amount of a gaseous Group V component as another reactant in a reaction chamber.
    • 本发明涉及为生产III-N(氮)化合物半导体晶片,特别是GaN晶片而优化的方法和装置。 具体地说,这些方法涉及基本上防止在化学气相沉积(CVD)反应器内的隔离阀装置上形成不需要的材料。 本发明提供了用于限制用于该系统的隔离阀上的GaCl 3和反应副产物的沉积/冷凝的装置和方法以及通过使一定量的第III族前体气体反应形成单晶III-V族半导体材料的方法 作为一种反应物,其具有一定量的气态V族组分作为反应室中的另一反应物。
    • 6. 发明授权
    • Methods for improving the quality of structures comprising semiconductor materials
    • 提高包含半导体材料的结构质量的方法
    • US08598019B2
    • 2013-12-03
    • US13552303
    • 2012-07-18
    • Chantal Arena
    • Chantal Arena
    • H01L21/20
    • H01L21/02458H01L21/0254H01L21/0262H01L21/02639H01L21/02647
    • Methods which can be applied during the epitaxial growth of semiconductor structures and layers of III-nitride materials so that the qualities of successive layers are successively improved. An intermediate epitaxial layer is grown on an initial surface so that growth pits form at surface dislocations present in the initial surface. A following layer is then grown on the intermediate layer according to the known phenomena of epitaxial lateral overgrowth so it extends laterally and encloses at least the agglomerations of intersecting growth pits. Preferably, prior to growing the following layer, a discontinuous film of a dielectric material is deposited so that the dielectric material deposits discontinuously so as to reduce the number of dislocations in the laterally growing material. The methods of the invention can be performed multiple times to the same structure. Also, semiconductor structures fabricated by these methods.
    • 可以在半导体结构和III族氮化物材料层的外延生长期间应用的方法,使得连续层的质量连续改善。 在初始表面上生长中间外延层,使得在初始表面中存在的表面位错处形成生长坑。 然后根据已知的外延横向过度生长现象在中间层上生长随后的层,因此其横向延伸并且至少包围相交的生长凹坑的聚集体。 优选地,在生长下一层之前,沉积介电材料的不连续膜,使得电介质材料不连续地沉积,以减少侧向生长材料中位错的数量。 本发明的方法可以多次进行到相同的结构。 此外,通过这些方法制造的半导体结构。
    • 7. 发明授权
    • Abatement of reaction gases from gallium nitride deposition
    • 减少氮化镓沉积反应气体
    • US08585820B2
    • 2013-11-19
    • US12305495
    • 2007-11-15
    • Chantal ArenaChristiaan Werkhoven
    • Chantal ArenaChristiaan Werkhoven
    • C30B23/00C30B25/00C30B28/14C23C16/00
    • C30B25/14C23C16/4412C30B25/08C30B25/165C30B29/40C30B29/403
    • Methods for the sustained, high-volume production of Group III-V compound semiconductor material suitable for fabrication of optic and electronic components, for use as substrates for epitaxial deposition, or for wafers. The equipment and methods are optimized for producing Group III-N (nitrogen) compound semiconductor wafers and specifically for producing GaN wafers. The method includes reacting an amount of a gaseous Group III precursor as one reactant with an amount of a gaseous Group V component as another reactant in a reaction chamber to form the semiconductor material; removing exhaust gases including unreacted Group III precursor, unreacted Group V component and reaction byproducts; and heating the exhaust gases to a temperature sufficient to reduce condensation thereof and enhance manufacture of the semiconductor material. Advantageously, the exhaust gases are heated to sufficiently avoid condensation to facilitate sustained high volume manufacture of the semiconductor material.
    • 用于持续,大批量生产适用于制造光学和电子部件的III-V族化合物半导体材料,用作外延沉积的基底或用于晶片的方法。 该设备和方法被优化用于生产III-N(氮)化合物半导体晶片,并专门用于生产GaN晶片。 该方法包括将一定量的作为一种反应物的气态III族前体与一定量的气态V族组分作为反应室中的另一反应物反应以形成半导体材料; 去除废气,包括未反应的III族前体,未反应的V族组分和反应副产物; 并将废气加热到足以减少其冷凝的温度,并且增强半导体材料的制造。 有利地,排气被加热以充分避免冷凝,以促进半导体材料的持续高容量制造。
    • 8. 发明授权
    • Methods for high volume manufacture of group III-V semiconductor materials
    • III-V族III族半导体材料大批量生产的方法
    • US08382898B2
    • 2013-02-26
    • US12305394
    • 2007-11-15
    • Chantal ArenaChristiaan Werkhoven
    • Chantal ArenaChristiaan Werkhoven
    • C30B25/00C30B23/00
    • C30B25/02C30B29/403
    • The present invention is related to the field of semiconductor processing equipment and methods and provides, in particular, methods for the sustained, high-volume production of Group III-V compound semiconductor material suitable for fabrication of optic and electronic components, for use as substrates for epitaxial deposition, for wafers and so forth. In preferred embodiments, these methods are optimized for producing Group III-N (nitrogen) compound semiconductor wafers and specifically for producing GaN wafers. Specifically, the method includes reacting an amount of a gaseous Group III precursor as one reactant with an amount of a gaseous Group V component as another reactant in a reaction chamber under conditions sufficient to provide sustained high volume manufacture of the semiconductor material on one or more substrates, with the gaseous Group III precursor continuously provided at a mass flow of 50 g Group III element/hour for at least 48 hours.
    • 本发明涉及半导体处理设备和方法的领域,并且特别地提供了用于持续,大批量生产适用于制造光学和电子部件的III-V族化合物半导体材料用作基板的方法 用于外延沉积,用于晶片等。 在优选的实施方案中,这些方法被优化用于生产III-N(氮)化合物半导体晶片,并且专门用于生产GaN晶片。 具体地说,该方法包括将一定量的作为一种反应物的气态III族前体与一定量的气态V族组分作为另外的反应物在反应室中反应,条件足以在一个或多个反应器上提供持续的大量制造半导体材料 底物,气态III族前体以50g III族元素/小时的质量流量连续提供至少48小时。
    • 10. 发明申请
    • METHODS FOR IMPROVING THE QUALITY OF STRUCTURES COMPRISING SEMICONDUCTOR MATERIALS
    • 用于改善包含半导体材料的结构质量的方法
    • US20120280249A1
    • 2012-11-08
    • US13552303
    • 2012-07-18
    • Chantal Arena
    • Chantal Arena
    • H01L29/20H01L21/20
    • H01L21/02458H01L21/0254H01L21/0262H01L21/02639H01L21/02647
    • Methods which can be applied during the epitaxial growth of semiconductor structures and layers of III-nitride materials so that the qualities of successive layers are successively improved. An intermediate epitaxial layer is grown on an initial surface so that growth pits form at surface dislocations present in the initial surface. A following layer is then grown on the intermediate layer according to the known phenomena of epitaxial lateral overgrowth so it extends laterally and encloses at least the agglomerations of intersecting growth pits. Preferably, prior to growing the following layer, a discontinuous film of a dielectric material is deposited so that the dielectric material deposits discontinuously so as to reduce the number of dislocations in the laterally growing material. The methods of the invention can be performed multiple times to the same structure. Also, semiconductor structures fabricated by these methods.
    • 可以在半导体结构和III族氮化物材料层的外延生长期间应用的方法,使得连续层的质量连续改善。 在初始表面上生长中间外延层,使得在初始表面中存在的表面位错处形成生长坑。 然后根据已知的外延横向过度生长现象在中间层上生长随后的层,因此其横向延伸并且至少包围相交的生长凹坑的聚集体。 优选地,在生长下一层之前,沉积介电材料的不连续膜,使得电介质材料不连续地沉积,以减少侧向生长材料中位错的数量。 本发明的方法可以多次进行到相同的结构。 此外,通过这些方法制造的半导体结构。