12nm及以上技术的ALD TiN表面缺陷减少

Aditya Kumar, Kyle E. Pratt, O. Famodu, Bhavyen Patel
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引用次数: 0

摘要

原子层沉积(ALD) TiN金属薄膜用于半导体制造的各种用途,如功函数金属,金属帽和势垒薄膜。ALD锡腔和工艺产生不同类型的颗粒缺陷,具有不同的形态和组成。发现缺陷的主要类型之一是四聚二甲氨基钛(TDMAT)的TiN表面颗粒。本工作提出了一种减少由TDMAT冷凝产生的表面缺陷的解决方案。在这项工作中,使用He载气和其他工艺气体(如Ar和N2)的加热气体管道来减少ALD TiN的表面缺陷。对两种燃气管道加热方法进行了评价。在一种方法中,使用内置加热器的燃气管道,在另一种方法中,使用加热套来加热燃气管道。利用SIMS、XRD和XPS对ALD TiN薄膜进行了详细的材料表征,以了解加热气体对ALD TiN薄膜性能的影响。使用工艺气体的加热气体管道,表面缺陷显著减少30%以上。
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ALD TiN Surface Defect Reduction for 12nm and Beyond Technologies
Atomic layer deposition (ALD) TiN metal films are used in semiconductor manufacturing for various purposes, such as work function metal, metal cap, and barrier films. ALD TiN chamber and process generate different types of particle defects having different morphologies and compositions. One of the main types of defect was found to be TiN surface particle from tetrakis-dimethylamino titanium (TDMAT). This work presents a solution to reduce the surface defects that are generated from the condensation of TDMAT. In this work, heated gas lines for He carrier gas and other process gases, such as Ar and N2, were used to reduce surface defects from ALD TiN. Two methods for heating gas lines were evaluated. In one method, gas lines with in-build heater were used and, in another method, heating jackets were used to heat the gas lines. A detailed material characterization of ALD TiN film using SIMS, XRD, and XPS was carried out to understand the influence of heated process gases on ALD TiN film properties. A significant surface defects reduction of more than 30% was achieved using the heated gas lines of process gases.
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