Multilayer capacitors in polycrystalline diamond by rapid thermal annealing

Proceedings of the IEEE 1998 National Aerospace and Electronics Conference. NAECON 1998. Celebrating 50 Years (Cat. No.98CH36185) Pub Date : 1998-07-13 DOI:10.1109/NAECON.1998.710125

P. Kosel, R. Monreal, S. Fries-Carr, J. Weimer, S. Heidger, R. Wu

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Abstract

Polycrystalline diamond (PCD) can be grown over a range of thicknesses from 2 /spl mu/m to over 200 /spl mu/m by a variety of techniques. The PCD films can be obtained with very high resistivities exceeding 10/sup 11/ /spl Omega/-cm or they can be doped with boron to produce high resistance conductors. Metal bonds to polycrystalline diamond (PCD) are important for the realization of ohmic contacts for electronic devices and the adhesion of PCD films to various materials in the fabrication of PCD-based sensors and actuators. We have investigated the formation of titanium contacts on PCD and aluminum silicide bonding of the PCD films to a variety of substrates by rapid thermal techniques. All high temperature process times were kept to 2.5 minutes and only the maximum temperature was varied for optimum results in each sintering step. Two alternative rapid thermal processing systems were used: (a) a cylindrical cavity system with a narrow area coverage for the formation of titanium carbide and titanium silicide bonds, and (b) a rectangular cavity system with large area coverage for the formation of aluminum silicide bonds. The cylindrical cavity system was capable of achieving higher temperatures and was, therefore, used for the formation of the Ti/PCD and Ti/Si contacts. Optimum sintering temperatures were found to be: 885/spl plusmn/15/spl deg/C for Ti/PCD contacts, 710/spl plusmn/5/spl deg/C for Ti/Si and 650/spl deg/C for Al/Si for 36 /spl mu/m thick aluminum foil. Argon gas was used for the ambient in all sintering operations.

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快速热退火制备多晶金刚石多层电容器

聚晶金刚石(PCD)可以通过各种技术生长出从2 /spl μ m到200 /spl μ m以上的厚度范围。PCD薄膜可以获得非常高的电阻率，超过10/sup / 11/ /spl ω /-cm，或者它们可以掺杂硼以产生高电阻导体。多晶金刚石(PCD)上的金属键对于实现电子器件的欧姆接触和PCD薄膜与各种材料的粘附是非常重要的。我们研究了PCD上钛触点的形成，以及PCD薄膜与各种衬底的硅化铝键合。所有的高温过程时间都保持在2.5分钟，并且在每个烧结步骤中只改变最高温度以获得最佳效果。采用了两种可选的快速热处理系统:(a)覆盖面积窄的圆柱形腔系统，用于形成碳化钛和硅化钛键;(b)覆盖面积大的矩形腔系统，用于形成硅化铝键。圆柱形腔系统能够达到更高的温度，因此用于Ti/PCD和Ti/Si触点的形成。结果表明:Ti/PCD触点的最佳烧结温度为885/spl plusmn/15/spl℃，Ti/Si的最佳烧结温度为710/spl plusmn/5/spl℃，Al/Si的最佳烧结温度为650/spl℃。在所有烧结操作中，氩气作为环境气体。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the IEEE 1998 National Aerospace and Electronics Conference. NAECON 1998. Celebrating 50 Years (Cat. No.98CH36185)

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