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    • 2. 发明授权
    • Dual-hardness polishing pad for linear polisher and method for fabrication
    • 用于线性抛光机的双硬度抛光垫及其制造方法
    • US06409587B1
    • 2002-06-25
    • US09713827
    • 2000-11-15
    • Tsu ShihSyun-Ming JangYing-Ho ChenWen-Chih Chiou
    • Tsu ShihSyun-Ming JangYing-Ho ChenWen-Chih Chiou
    • B24D1100
    • B24D11/08B24B21/04B24B37/24G06T9/007
    • A composite, dual-hardness polishing pad for use in a linear chemical mechanical polishing apparatus and a method for forming the pad are described. In the composite, dual-hardness polishing pad, a pad body is first provided which has a leading edge and a trailing edge for mounting to a linear belt immediately adjacent to a second polishing pad. The pad body is fabricated of a material that has a first hardness, the leading edge contacts an object being polished on the composite polishing pad before the trailing edge when the linear belt turns in a linear polishing process. The composite polishing pad further includes a buffer pad that is adhesively joined to the leading edge of the pad body for contacting the object that is being polished, the buffer pad may be fabricated of a material that has a second hardness which is at least 20% smaller than the first hardness such that impact on the object being polished is minimized during a linear polishing process. The present invention is further directed to a method for adhesively joining a buffer pad to a pad body of a polishing pad.
    • 描述了用于线性化学机械抛光装置的复合双硬度抛光垫和用于形成垫的方法。 在复合材料双硬度抛光垫中,首先提供具有前缘和后缘的垫体,用于安装在紧邻第二抛光垫的线性带上。 垫体由具有第一硬度的材料制成,当线性带在线性抛光过程中转动时,前缘在后缘之前在复合抛光垫上接触待抛光的物体。 所述复合抛光垫还包括缓冲垫,所述缓冲垫粘合地连接到所述垫体的前缘以接触被抛光的物体,所述缓冲垫可以由具有至少20%的第二硬度的材料制成, 小于第一硬度,使得在线性抛光工艺期间对被抛光物体的冲击最小化。 本发明还涉及一种用于将缓冲垫粘合地结合到抛光垫的衬垫体的方法。
    • 3. 发明授权
    • Eliminate broken line damage of copper after CMP
    • 消除CMP后的铜线损伤
    • US06736701B1
    • 2004-05-18
    • US09989838
    • 2001-11-20
    • Shau-Lin ShueYing-Ho ChenWen-Chih ChiouTsu ShihSyun-Ming Jang
    • Shau-Lin ShueYing-Ho ChenWen-Chih ChiouTsu ShihSyun-Ming Jang
    • B24B100
    • B24B37/042B24B21/04
    • A new method is provided for the post-deposition treatment of copper lines. A damascene copper line pattern whereby a TaN barrier layer and a seed layer have been provided is polished. Under the first embodiment of the invention, the deposited copper is polished (Cu CMP), the surface of the wafer is rinsed using a first High Flow DI rinse that contains a TBA inhibitor. The TaN CMP is performed immediately following the first High Flow DI rinse. A second High Flow DI rinse is applied using DI water that contains TBA inhibitor. The required following rinse step is executed immediately after the second High Flow DI rinse has been completed. Under the second embodiment of the invention, the process of CMP has been divided in two distinct steps where the first step is aimed at corrosion elimination and the second step is aimed at elimination of mechanical damage to the polished copper. The processing conditions for the second processing step have been extended and optimized, thereby using a second belt of a CMP apparatus.
    • 提供了一种新的铜线后处理方法。 抛光已经提供TaN阻挡层和种子层的镶嵌铜线图案。 在本发明的第一实施例中,抛光沉积的铜(Cu CMP),使用含有TBA抑制剂的第一高流量DI冲洗冲洗晶片的表面。 在第一次高流量DI冲洗之后立即执行TaN CMP。 使用含有TBA抑制剂的去离子水进行第二次高流量DI冲洗。 第二次高流量DI冲洗完成后立即执行所需的冲洗步骤。 在本发明的第二个实施方案中,CMP的方法分为两个不同的步骤,其中第一步骤旨在消除腐蚀,第二步骤旨在消除抛光铜的机械损伤。 第二处理步骤的处理条件已被扩展和优化,从而使用CMP设备的第二带。
    • 6. 发明授权
    • Method to eliminate post-CMP copper flake defect
    • 消除CMP后铜片缺陷的方法
    • US06544891B1
    • 2003-04-08
    • US09945435
    • 2001-09-04
    • Ying-Ho ChenWen-Chih ChiouTsu ShihSyun-Ming Jang
    • Ying-Ho ChenWen-Chih ChiouTsu ShihSyun-Ming Jang
    • H01L2144
    • H01L21/7684H01L21/76838
    • A method of copper metallization wherein copper flaking and metal bridging problems are eliminated by an annealing process is described. A first metal line is provided on an insulating layer overlying a semiconductor substrate. A dielectric stop layer is deposited overlying the first metal line. A dielectric layer is deposited overlying the dielectric stop layer. An opening is etched through the dielectric layer and the dielectric stop layer to the first metal line. A barrier metal layer is deposited over the surface of the dielectric layer and within the opening. A copper layer is deposited over the surface of the barrier metal layer. The copper layer and barrier metal layer not within the opening are polished away wherein after a time period, copper flakes form on the surface of the copper and dielectric layers. The copper layer and the dielectric layer are alloyed whereby the copper layer is stabilized and the copper flakes are removed to complete copper damascene metallization in the fabrication of an integrated circuit.
    • 描述了通过退火工艺消除铜剥落和金属桥接问题的铜金属化方法。 第一金属线设置在覆盖在半导体衬底上的绝缘层上。 沉积在第一金属线上的电介质停止层。 介电层沉积在介电阻挡层上。 通过介电层和电介质停止层蚀刻开口到第一金属线。 阻挡金属层沉积在电介质层的表面上并且在开口内。 在阻挡金属层的表面上沉积铜层。 不在开口内的铜层和阻挡金属层被抛光,其中在一段时间之后,在铜和电介质层的表面上形成铜片。 将铜层和电介质层合金化,由此铜层稳定,并且在制造集成电路中去除铜片以完成铜镶嵌金属化。
    • 7. 发明授权
    • Slurry dispenser having multiple adjustable nozzles
    • 浆料分配器具有多个可调喷嘴
    • US06398627B1
    • 2002-06-04
    • US09815427
    • 2001-03-22
    • Wen-Chih ChiouYing-Ho ChenTsu ShihSyun-Ming Jang
    • Wen-Chih ChiouYing-Ho ChenTsu ShihSyun-Ming Jang
    • B24B900
    • B24B37/04B24B57/02
    • A slurry dispensing unit for a chemical mechanical polishing apparatus equipped with multiple slurry dispensing nozzles is disclosed. The slurry dispensing unit is constructed by a dispenser body that has a delivery conduit, a return conduit and a U-shape conduit connected in fluid communication therein between for flowing continuously a slurry solution therethrough and a plurality of nozzles integrally connected to and in fluid communication with a fluid passageway in the delivery conduit for dispensing a slurry solution. The multiple slurry dispensing nozzles may either have a fixed opening or adjustable openings by utilizing a flow control valve at each nozzle opening.
    • 公开了一种用于配备有多个浆料分配喷嘴的化学机械抛光设备的浆料分配单元。 浆料分配单元由分配器主体构成,分配器主体具有输送管道,回流管道和连接在其中的流体连通的U形管道,用于连续地流动通过其中的浆液;以及多个喷嘴,其一体地连接到流体连通 在输送管道中具有用于分配浆液的流体通道。 多个浆料分配喷嘴可以通过在每个喷嘴开口处利用流量控制阀来具有固定的开口或可调节的开口。