Direct molybdenum contacts to silicon

1 April 1985

journal article
conference paper
Published by AIP Publishing in Applied Physics Letters

Vol. 46 (7) , 657-659
https://doi.org/10.1063/1.95519

Abstract

Stringent requirements on the electrical and metallurgical properties of metallization systems for use in advanced, very large scale integrated circuits have created the need to study new metal‐silicon systems. We have conducted a study of the Mo/Si direct contact system. The choice of molybdenum stems from its desirable electrical and metallurgical properties. To date, however, its contact properties to silicon were not examined in detail. Results of the present study show that Mo can result in low resistivities (2) for both contacts to heavily doped p⁺‐Si and n⁺‐Si, provided appropriate care is taken in opening the contact windows. Further, we found the Mo/Si contact system to be stable under extended heat treatments at temperatures of up to 650 °C.

Keywords

This publication has 11 references indexed in Scilit:

Direct W–Ti contacts to silicon
Applied Physics Letters, 1984
Neutralization of Shallow Acceptor Levels in Silicon by Atomic Hydrogen
Physical Review Letters, 1983
Contact resistance and methods for its determination
Thin Solid Films, 1983
Platinum silicide ohmic contacts to shallow junctions in silicon
Journal of Applied Physics, 1982
Titanium-tungsten contacts to Si: The effects of alloying on Schottky contact and on silicide formation
Journal of Applied Physics, 1982
Plasma etching characteristics of sputtered MoSi2 films
Applied Physics Letters, 1980
Film properties of MoSi₂and their application to self-aligned MoSi₂gate MOSFET
IEEE Transactions on Electron Devices, 1980
Performance of refractory metal multilevel interconnection system
IEEE Transactions on Electron Devices, 1972
The P-channel refractory metal self-registered MOSFET
IEEE Transactions on Electron Devices, 1971
Electromigration failure modes in aluminum metallization for semiconductor devices
Proceedings of the IEEE, 1969