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 removing photoresist and etch residues
    • 去除光刻胶和蚀刻残留物的方法
    • US07169440B2
    • 2007-01-30
    • US10259768
    • 2002-09-30
    • Vaidyanathan BalasubramaniamMasaaki HagiwaraEiichi NishimuraKouichiro Inazawa
    • Vaidyanathan BalasubramaniamMasaaki HagiwaraEiichi NishimuraKouichiro Inazawa
    • B05D5/06
    • H01L21/02063G03F7/427H01L21/31138
    • A method is provided for plasma ashing to remove photoresist remnants and etch residues that are formed during preceding plasma etching of dielectric layers. The ashing method uses a two-step plasma process involving an oxygen-containing gas, where low or zero bias is applied to the substrate in the first cleaning step to remove significant amount of photoresist remnants and etch residues from the substrate, in addition to etching and removing detrimental fluoro-carbon residues from the chamber surfaces. An increased bias is applied to the substrate in the second cleaning step to remove the remains of the photoresist and etch residues from the substrate. The two-step process reduces the memory effect commonly observed in conventional one-step ashing processes. A method of endpoint detection can be used to monitor the ashing process.
    • 提供了一种用于等离子体灰化以去除光刻胶残留物的蚀刻残留物和蚀刻在电介质层的先前等离子体蚀刻期间形成的残留物的方法。 灰化方法使用包含含氧气体的两步等离子体工艺,其中在第一清洁步骤中向衬底施加低或零偏压,以除去蚀刻之外的大量光致抗蚀剂残余物和蚀刻残留物 并从室表面除去有害的氟碳残余物。 在第二清洗步骤中对衬底施加增加的偏压以除去光刻胶的残余物并从衬底上蚀刻残留物。 两步法减少了常规一步灰化过程中常见的记忆效应。 端点检测方法可用于监测灰化过程。
    • 3. 发明授权
    • Method of etching a substrate
    • 蚀刻基板的方法
    • US5721090A
    • 1998-02-24
    • US530910
    • 1995-09-20
    • Shin OkamotoKouichiro InazawaSachiko FuruyaMaki Koizumi
    • Shin OkamotoKouichiro InazawaSachiko FuruyaMaki Koizumi
    • G03F7/09H01L21/306H01L21/308H01L21/311G03F7/00
    • H01L21/31116G03F7/091H01L21/30621H01L21/3081H01L21/31144
    • An etching method comprising the steps of forming an etched layer on a wafer and covering the etched layer with an anti-reflection cover and then the anti-reflection cover with a photoresist film, pattern-exposing the photoresist film, developing the exposed photoresist film to form pattern openings in each of which the anti-reflection cover is exposed, and carrying the wafer into a chamber, exhausting the chamber to decompressed atmosphere, and introducing a mixed gas of C.sub.4 F.sub.8 gas and at least one of O.sub.2 and N.sub.2 gases into the process chamber to generate plasma of this mixed gas and act active species in this plasma on the wafer, whereby the anti-reflection cover which is exposed in each of the pattern openings is etched and the etched layer is then etched without etching the photoresist film formed on an inner surface each pattern opening.
    • 一种蚀刻方法,包括以下步骤:在晶片上形成蚀刻层并用抗反射罩覆盖蚀刻层,然后用光致抗蚀剂膜形成抗反射罩,使曝光的光致抗蚀剂膜图案曝光,将曝光的光致抗蚀剂膜显影成 形成图案开口,其中每个防反射盖被暴露,并将晶片运送到室中,将该室排放到减压气氛中,以及将C 4 F 8气体和至少一种O 2和N 2气体的混合气体引入该过程 以产生该混合气体的等离子体,并且在晶片上的该等离子体中起作用活性物质,由此蚀刻在每个图案开口中暴露的抗反射盖,然后蚀刻蚀刻层,而不蚀刻形成在 每个图案开口的内表面。
    • 5. 发明授权
    • Plasma processing method
    • 等离子体处理方法
    • US06642149B2
    • 2003-11-04
    • US10286789
    • 2002-11-04
    • Tomoki SuemasaTsuyoshi OnoKouichiro InazawaMakoto SekineItsuko SakaiYukimasa Yoshida
    • Tomoki SuemasaTsuyoshi OnoKouichiro InazawaMakoto SekineItsuko SakaiYukimasa Yoshida
    • H01L21302
    • H01J37/32174H01J37/32091H01J37/32165
    • In a processing chamber of an etching apparatus a lower electrode and an upper electrode grounded through a processing container are disposed oppositely to each other. A first high frequency power supply section composed of a first filter, a first matching device, and a first power source, and a second high frequency power supply section composed of a second filter, a second matching device, and a second power source are connected to the lower electrode. A superimposed power of two frequencies composed of a first high frequency power component of at least 10 MHz produced from the first power source and a second high frequency power component of at least 2 MHz produced from the second power source is applied to the lower electrode. Ions in the plasma do not accelerated by changes of electric field in the processing chamber, but are accelerated by a self-bias voltage and collide only against a wafer on the lower electrode.
    • 在蚀刻装置的处理室中,通过处理容器接地的下电极和上电极彼此相对设置。 由第一滤波器,第一匹配装置和第一电源组成的第一高频电源部分和由第二滤波器,第二匹配装置和第二电源组成的第二高频电源部分被连接 到下电极。 将由第一电源产生的至少10MHz的第一高频功率分量和由第二电源产生的至少2MHz的第二高频功率分量组成的两个频率的叠加功率施加到下部电极。 等离子体中的离子不会因处理室中的电场的变化而加速,而是通过自偏压加速并且仅与下电极上的晶片相撞。
    • 6. 发明授权
    • Etching method
    • 蚀刻方法
    • US06602435B1
    • 2003-08-05
    • US09582457
    • 2000-06-26
    • Masahiro YamadaYoubun ItoKouichiro Inazawa
    • Masahiro YamadaYoubun ItoKouichiro Inazawa
    • H01L213065
    • H01L21/76802H01L21/31116H01L21/76804Y02P70/605
    • A processing gas constituted of C5F8, O2 and Ar achieving a flow rate ratio of 1≦C5F8 flow rate/O2 flow rate≦1.625 is supplied into a processing chamber 102 of an etching apparatus 100 and the atmosphere pressure is set within a range of 45 mTorr˜50 mTorr. High-frequency power is applied to a lower electrode 110 sustained within a temperature range of 20° C.˜40° C. on which a wafer W is mounted to raise the processing gas to plasma, and using the plasma, a contact hole 210 is formed at an SiO2 film 208 on an SiNx film 206 formed at the wafer W. The use of C5F8 and O2 makes it possible to form a contact hole 210 achieving near-perfect verticality at the SiO2 film 208 and also improves the selection ratio of the SiO2 film 208 relative to the SiNx film 206. C5F8, which becomes decomposed over a short period of time when released into the atmosphere, does not induce the greenhouse effect.
    • 由C5F8,O2和Ar构成的处理气体,将流量比为1 <= C5F8流量/ O2流量<= 1.625而提供到蚀刻装置100的处理室102中,将气氛压力设定在一定范围内 45 mTorr〜50 mTorr。 将高频电力施加到在20℃〜40℃的温度范围内保持的下部电极110,在该温度范围内安装有晶片W,以将处理气体升至等离子体,并且使用等离子体,接触孔210 在形成在晶片W上的SiNx膜206上的SiO 2膜208上形成。使用C5F8和O2可以形成接触孔210,其在SiO 2膜208上实现接近完全的垂直度,并且还提高了选择比 SiO 2膜208相对于SiNx膜206.当释放到大气中时,在短时间内分解的C5F8不会引起温室效应。
    • 8. 发明授权
    • Plasma processing apparatus
    • 等离子体处理装置
    • US6089181A
    • 2000-07-18
    • US897916
    • 1997-07-21
    • Tomoki SuemasaTsuyoshi OnoKouichiro Inazawa
    • Tomoki SuemasaTsuyoshi OnoKouichiro Inazawa
    • C23F4/00H01J37/32H01L21/302H01L21/3065C23C16/00
    • H01J37/32155H01J37/32082H01J37/32165
    • In a plasma etching apparatus, a process gas is supplied into a process chamber and converted into plasma by means of RF discharge, and a semiconductor wafer placed on a lower electrode is etched by the plasma. An RF power supply mechanism is connected to the lower electrode for applying thereto a superposed RF power for forming an RF electric field in the process chamber. The RF power supply mechanism has first and second RF power supplies for respectively oscillating a low frequency RF component and a high frequency RF component having a higher frequency than the low frequency RF component. The high frequency RF component from the second frequency RF component supply has its wave form modulated by a modulator on the basis of the wave form of the low frequency RF component from the first frequency RF power supply. Thereafter, the modulated high frequency RF component and the low frequency RF component are superposed upon each other. The high frequency RF component has a larger amplitude at a negative side peak of the low frequency RF component than at a positive side peak of the low frequency RF component.
    • 在等离子体蚀刻装置中,通过RF放电将处理气体供给到处理室并变换为等离子体,通过等离子体蚀刻放置在下部电极上的半导体晶片。 RF电源机构连接到下电极,以向其施加用于在处理室中形成RF电场的叠加RF功率。 RF电源机构具有第一和第二RF电源,用于分别振荡具有比低频RF分量更高频率的低频RF分量和高频RF分量。 来自第二频率RF分量电源的高频RF分量的波形由调制器调制,基于来自第一频率RF电源的低频RF分量的波形。 此后,调制的高频RF分量和低频RF分量彼此重叠。 高频RF分量在低频RF分量的负侧峰值处具有比在低频RF分量的正侧峰值处的振幅更大的振幅。