Templating Effects On C54-Tisi2 Formation In Ternary Reactions.

A. Quintero; M. Libera; C. Cabral; C. Lavoie; J. M. Harper

doi:10.1017/S143192760002345X

Templating Effects On C54-Tisi₂ Formation In Ternary Reactions.

A. Quintero
, M. Libera
, C. Cabral
, C. Lavoie
, J. M. Harper

Department of Chemical Engineering and Materials Science

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Titanium disilicide (C54-TiSi₂) is a low resistivity silicide (15 - 20 μ-cm) and is widely used in the device industry. It is formed at about 750-850 °C when thin layers (∼30- lOOnm) of Ti on poly- or single-crystal Si substrates are subjected to rapid thermal annealing (3 °C/sec) in a controlled atmosphere (N₂). During the anneal, other Ti silicides such as Ti₅Si₃, Ti₅Si₄,TiSi and C49-TiSi₂ may form prior to the desirable C54-TiSi₂. Some attempts have been made to promote low-temperature C54-TiSi₂ formation. Depositing a Mo (l-2nm) interlayer between Ti and Si has been reported to decrease the C54 formation temperature by 100 °C.² Codepositing Ti with Ta, Nb or Mo has successfully decreased the formation temperature by about 150 °C.3 These findings have been interpreted in terms of a template mechanism which facilitates formation of C54 by advantageous lattice matching between similar planes in C54 and a hexagonal ternary (Ti- X-Si, X=Ta, Nb, Mo) C40 precursor phase.

Original language	English
Pages (from-to)	666-667
Number of pages	2
Journal	Microscopy and Microanalysis
Volume	4
DOIs	https://doi.org/10.1017/S143192760002345X
State	Published - 1 Jul 1998

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@article{f6b5985da6854bbd89d191e2937f308a,

title = "Templating Effects On C54-Tisi2 Formation In Ternary Reactions.",

abstract = "Titanium disilicide (C54-TiSi2) is a low resistivity silicide (15 - 20 μ-cm) and is widely used in the device industry. It is formed at about 750-850 °C when thin layers (∼30- lOOnm) of Ti on poly- or single-crystal Si substrates are subjected to rapid thermal annealing (3 °C/sec) in a controlled atmosphere (N2). During the anneal, other Ti silicides such as Ti5Si3, Ti5Si4,TiSi and C49-TiSi2 may form prior to the desirable C54-TiSi2. Some attempts have been made to promote low-temperature C54-TiSi2 formation. Depositing a Mo (l-2nm) interlayer between Ti and Si has been reported to decrease the C54 formation temperature by 100 °C.2 Codepositing Ti with Ta, Nb or Mo has successfully decreased the formation temperature by about 150 °C.3 These findings have been interpreted in terms of a template mechanism which facilitates formation of C54 by advantageous lattice matching between similar planes in C54 and a hexagonal ternary (Ti- X-Si, X=Ta, Nb, Mo) C40 precursor phase.",

author = "A. Quintero and M. Libera and C. Cabral and C. Lavoie and Harper, \{J. M.\}",

note = "Publisher Copyright: {\textcopyright} 1998 Microscopy Society of America.",

year = "1998",

month = jul,

day = "1",

doi = "10.1017/S143192760002345X",

language = "English",

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TY - JOUR

T1 - Templating Effects On C54-Tisi2 Formation In Ternary Reactions.

AU - Quintero, A.

AU - Libera, M.

AU - Cabral, C.

AU - Lavoie, C.

AU - Harper, J. M.

PY - 1998/7/1

Y1 - 1998/7/1

N2 - Titanium disilicide (C54-TiSi2) is a low resistivity silicide (15 - 20 μ-cm) and is widely used in the device industry. It is formed at about 750-850 °C when thin layers (∼30- lOOnm) of Ti on poly- or single-crystal Si substrates are subjected to rapid thermal annealing (3 °C/sec) in a controlled atmosphere (N2). During the anneal, other Ti silicides such as Ti5Si3, Ti5Si4,TiSi and C49-TiSi2 may form prior to the desirable C54-TiSi2. Some attempts have been made to promote low-temperature C54-TiSi2 formation. Depositing a Mo (l-2nm) interlayer between Ti and Si has been reported to decrease the C54 formation temperature by 100 °C.2 Codepositing Ti with Ta, Nb or Mo has successfully decreased the formation temperature by about 150 °C.3 These findings have been interpreted in terms of a template mechanism which facilitates formation of C54 by advantageous lattice matching between similar planes in C54 and a hexagonal ternary (Ti- X-Si, X=Ta, Nb, Mo) C40 precursor phase.

AB - Titanium disilicide (C54-TiSi2) is a low resistivity silicide (15 - 20 μ-cm) and is widely used in the device industry. It is formed at about 750-850 °C when thin layers (∼30- lOOnm) of Ti on poly- or single-crystal Si substrates are subjected to rapid thermal annealing (3 °C/sec) in a controlled atmosphere (N2). During the anneal, other Ti silicides such as Ti5Si3, Ti5Si4,TiSi and C49-TiSi2 may form prior to the desirable C54-TiSi2. Some attempts have been made to promote low-temperature C54-TiSi2 formation. Depositing a Mo (l-2nm) interlayer between Ti and Si has been reported to decrease the C54 formation temperature by 100 °C.2 Codepositing Ti with Ta, Nb or Mo has successfully decreased the formation temperature by about 150 °C.3 These findings have been interpreted in terms of a template mechanism which facilitates formation of C54 by advantageous lattice matching between similar planes in C54 and a hexagonal ternary (Ti- X-Si, X=Ta, Nb, Mo) C40 precursor phase.

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U2 - 10.1017/S143192760002345X

DO - 10.1017/S143192760002345X

M3 - Article

AN - SCOPUS:22444451832

SN - 1431-9276

VL - 4

SP - 666

EP - 667

JO - Microscopy and Microanalysis

JF - Microscopy and Microanalysis

ER -

Templating Effects On C54-Tisi₂ Formation In Ternary Reactions.

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