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    • 8. 发明授权
    • Method of manufacturing semiconductor device having elements isolated by
trench
    • 制造具有由沟槽隔离的元件的半导体器件的方法
    • US5332683A
    • 1994-07-26
    • US15672
    • 1993-02-09
    • Naoto MiyashitaKoichi TakahashiHironori Sonobe
    • Naoto MiyashitaKoichi TakahashiHironori Sonobe
    • H01L21/32H01L21/763H01L21/265H01L29/70
    • H01L21/32H01L21/763
    • This invention relates to a method of manufacturing a semiconductor device having elements isolated by a trench. A trench is formed to surround an element region of a silicon substrate by anisotropic etching. A nonoxide film such as a silicon nitride film is selectively formed on the upper surface of the element region. Thermal oxidation is performed using the nonoxide film as a mask to form an oxide film on the inner face of the trench and the upper surface of a field region. Thereafter, a polysilicon layer is buried in the trench, and after the surface of the polysilicon layer is flattened, a capping oxide film is formed on the upper surface of the trench. In addition, a non-oxide film is formed to have an interval between the end of the nonoxide film and the trench of 2 .mu.m or more.
    • 本发明涉及一种制造半导体器件的方法,该半导体器件具有通过沟槽隔离的元件。 通过各向异性蚀刻形成沟槽以包围硅衬底的元件区域。 在元件区域的上表面上选择性地形成诸如氮化硅膜的非氧化物膜。 使用非氧化物膜作为掩模进行热氧化,以在沟槽的内表面和场区的上表面上形成氧化膜。 此后,多晶硅层被埋在沟槽中,并且在多晶硅层的表面变平时,在沟槽的上表面上形成覆盖氧化物膜。 此外,形成非氧化物膜,其在非氧化物膜的端部和沟槽之间具有2μm以上的间隔。
    • 9. 发明授权
    • Double side cleaning apparatus for semiconductor substrate
    • 半导体基板用双面清洗装置
    • US06167583A
    • 2001-01-02
    • US09078132
    • 1998-05-14
    • Naoto MiyashitaMasahiro Abe
    • Naoto MiyashitaMasahiro Abe
    • B08B302
    • H01L21/67028B08B1/04
    • A double side cleaning apparatus includes a pair of roll-like brushes and at least one cleaning brush. The roll-like brushes are driven to rotate in opposite directions, and a semiconductor wafer is arranged between them in a non-contact manner. The cleaning brush is arranged near the pair of roll-like brushes. While the semiconductor wafer is arranged between the pair of roll-like brushes and its upper and lower surfaces are being cleaned, the cleaning brush brushes the side surface of the semiconductor wafer. A cleaning agent is supplied from the pair of roll-like brushes to the semiconductor wafer to clean it. Since the upper and lower surfaces of the semiconductor wafer are cleaned in a non-contact manner, dust can be removed efficiently (within a short period of time and a small space).
    • 双面清洁装置包括一对卷状刷和至少一个清洁刷。 卷状电刷被驱动以沿相反方向旋转,半导体晶片以非接触方式布置在它们之间。 清洁刷布置在一对辊状刷附近。 当半导体晶片布置在一对辊状电刷之间并且其上表面和下表面被清洁时,清洁刷刷刷半导体晶片的侧表面。 从一对辊状刷向半导体晶片提供清洁剂以将其清洁。 由于半导体晶片的上表面和下表面以非接触的方式被清洁,因此可以有效地(在短时间内和小的空间)内去除灰尘。
    • 10. 发明授权
    • Method for purifying pure water and an apparatus for the same
    • 纯水纯化方法及其设备
    • US6001238A
    • 1999-12-14
    • US941045
    • 1997-09-30
    • Jun TakayasuNaoto Miyashita
    • Jun TakayasuNaoto Miyashita
    • C02F1/46C02F1/00C02F1/461C02F1/467C25B9/00C25B9/06C25B9/08C25B9/18H01L21/304
    • C02F1/4678C02F1/46109C02F1/001C02F1/4618C02F2001/46138C02F2103/04C02F2201/46115C02F2201/4617Y10S210/90
    • A method of reducing the concentration of metal ions in pure water or ultrapure water and thereby obtaining pure water or ultrapure water. Such purified pure water or purified ultrapure water is used, for example, when washing semiconductor wafers, as a starting material of electrolytic ionic water, or for diluting washing water. A pair of carbon electrodes is disposed in an ultrapure water storage tank containing pure water or ultrapure water or in a purifying tank disposed in a line leading from an ultrapure water storage tank. A D.C. voltage is applied across the electrode pair. A carbon electrode material having a large specific surface area is chosen, and an electrode structure with which there is little detachment of carbon fragments is used. After the carbon electrode is molded, a carbon layer is formed on the surface of the molding by dipping the molding in an amorphous carbon bath. Because the carbon layer penetrates into the pores in the molding surface, the bonds between the carbon elements are strengthened, preventing carbon fragments from detaching. Because the electrode surfaces may be covered with filters, even if carbon fragments do detach, they are caught by the filters, preventing particles from entering the purified pure water or purified ultrapure water.
    • 一种降低纯水或超纯水中金属离子浓度,从而获得纯水或超纯水的方法。 使用这种纯化的纯水或纯化的超纯水,例如,当洗涤半导体晶片,作为电解离子水的起始材料或稀释洗涤水时。 一对碳电极设置在含有纯水或超纯水的超纯水储存罐中,或者设置在从超纯水储存罐引出的管线中的净化槽中。 跨电极对施加直流电压。 选择具有大比表面积的碳电极材料,并且使用与碳片断分离很少的电极结构。 在碳电极成型之后,通过将成型体浸渍在无定形碳浴中,在模制品的表面上形成碳层。 因为碳层渗透到成型表面的孔中,所以碳元素之间的键被加强,防止碳碎片脱落。 由于电极表面可能被过滤器覆盖,即使碳片断裂,它们被过滤器捕获,防止颗粒进入纯化的纯水或纯化的超纯水。