MICROSTRUCTURE OF TIN FILMS AND INTERFACES FORMED BY ION-BEAM-ENHANCED DEPOSITION AND SIMPLE PHYSICAL VAPOR-DEPOSITION

被引：4

作者：

CHENG, ZY ^{[1
]}

ZHU, J ^{[1
]}

LIU, XH ^{[1
]}

WANG, X ^{[1
]}

YANG, GQ ^{[1
]}

机构：

[1] ACAD SINICA,SHANGHAI INST MET,SHANGHAI 200050,PEOPLES R CHINA

来源：

JOURNAL OF MATERIALS RESEARCH | 1995年 / 10卷 / 04期

关键词：

D O I：

10.1557/JMR.1995.0995

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

The microstructure and composition of TiN films, formed by ion beam enhanced deposition (IBED) with different energy (40 keV and 90 keV) xenon ion bombardment and by simple physical vapor deposition (hereafter S-PVD) without any ion beam enhancement, and the interfaces between TiN films and Si substrates have been studied by cross-sectional view analytical electron microscopy in this work. Both the IBED TiN films prepared by Xe+ bombardment with either 40 keV or 90 keV energy ions and the S-PVD TiN film consist of nanocrystals. The TEM observations in the S-PVD case reveal an amorphous layer and a mixed layer of TiN grains and amorphous material at the TiN/Si interface. The thicknesses of the amorphous layer and the mixed layer are about 210 nm and at least 40 nm, respectively. Upon 40 keV Xe+ bombardment, an amorphous Si transition layer of about 50 nm thickness is found at the TiN/Si interface, and the TiN grains close to the TiN/Si interface are of weak preferred orientation. Upon 90 keV Xe+ bombardment, amorphous TiN and Si layers are found with a total thickness of 80 nm at the TiN/Si interface, and the TiN grains near the TiN/Si interface are of preferred orientation [111](TiN) parallel to [001](Si). The energy of xenon ion bombardment has a strong effect on the microstructural characteristics of TiN films and the interfaces between the TiN films and the Si substrates, as well as the size and the preferred orientation of TiN grains.

引用

页码：995 / 999

页数：5

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