Properties of indium tin oxide thin films grown by Ar ion beam sputter deposition

C. Bundesmann, J. Bauer, A. Finzel, J. Gerlach, W. Knolle, A. Hellmich, R. Synowicki
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引用次数: 5

Abstract

Indium tin oxide (ITO) thin films were grown by Ar ion beam sputter deposition under systematic variation of ion energy, geometrical parameters, and O 2 background pressure and characterized with regard to the film thickness, growth rate, crystalline structure, surface roughness, mass density, composition, electrical, and optical properties. The growth rate shows an over-cosine, forward-tilted angular distribution with a maximum, which increases with increasing ion energy, increasing ion incidence angle, and decreasing O 2 background pressure. ITO films were found to be amorphous with a surface roughness of less than 1 nm. Mass density and composition show only small changes with increasing scattering angle. The electrical resistivity behavior in dependence on the process parameters is complex. It is not only driven by the O 2 background pressure but also very much by the scattering angle. The observed behavior can be understood only if competing processes are considered: (i) reduction of the number of oxygen vacancies due to the presence of O 2 background gas and (ii) defect generation and preferential sputtering of oxygen at the surface of the growing films due to the impact of high-energy scattered particles. Even though absolute numbers differ, optical characterization suggests a similar systematics.
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氩离子束溅射沉积氧化铟锡薄膜的性能
在离子能量、几何参数和o2背景压力的系统变化下,采用氩离子束溅射沉积法制备了氧化铟锡(ITO)薄膜,并对薄膜厚度、生长速率、晶体结构、表面粗糙度、质量密度、成分、电学和光学性能进行了表征。随着离子能量的增加、离子入射角的增加和o2背景压力的减小,生长速率呈正倾斜的过余弦角分布,并有最大值。ITO薄膜呈无定形,表面粗糙度小于1 nm。随着散射角的增大,质量密度和成分变化不大。电阻率随工艺参数的变化是复杂的。它不仅受o2背景压的驱动,而且在很大程度上受散射角的影响。观察到的行为只有在考虑竞争过程时才能理解:(i)由于o2背景气体的存在而减少氧空位的数量;(ii)由于高能散射粒子的影响而在生长膜表面产生缺陷和优先溅射氧。尽管绝对数字不同,但光学特性表明了相似的系统。
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