Chemical vapor deposited RuOx films. Effect of oxygen flow rate

P. Gopal Ganesan; M. Eizenberg; C. Dornfest

doi:10.1149/1.1495910

Chemical vapor deposited RuO_x films. Effect of oxygen flow rate

P. Gopal Ganesan, M. Eizenberg^*, C. Dornfest

^*Corresponding author for this work

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

13 Scopus citations

Abstract

Ruthenium and ruthenium oxide films were deposited on a Ru/SiO₂/Si substrate at 355°C using a Ru(C₂H₅C₅H₄)₂- [Ru(EtCp)₂] precursor and oxygen gas. The effects of the oxygen flow rate on film composition, microstructure, surface morphology, stress, and resistivity were investigated. The oxygen content in the film increases as the oxygen flow rate increases and saturates at a flow of 1200 sccm. Films deposited with an O₂ flow rate of 800 sccm or less have the structure of the ruthenium phase, a <001> texture, and smooth surface morphology. Films deposited with an O₂ flow rate of 1200 sccm or above have the structure of the ruthenium dioxide phase and higher surface roughness. Ru-phase films have a high stress level and low resistivity; the increase of oxygen flow rate from 50 to 800 sccm results in a decrease of stress from 8 to 5 G dyn/cm² and an increase of resistivity from 19 to 48 μΩ cm. RuO₂-phase films have a relatively low stress level (2 G dyn/cm²), which does not change significantly with the oxygen flow rate, and high resistivity which slightly decreases from 120 to 115 μΩ cm as the oxygen flow rate increases from 1200 to 2000 sccm.

Original language	English
Pages (from-to)	G510-G516
Journal	Journal of the Electrochemical Society
Volume	149
Issue number	9
DOIs	https://doi.org/10.1149/1.1495910
State	Published - Sep 2002
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1149/1.1495910

Cite this

@article{1b309be1270f40e1ab316af79267add0,

title = "Chemical vapor deposited RuOx films. Effect of oxygen flow rate",

abstract = "Ruthenium and ruthenium oxide films were deposited on a Ru/SiO2/Si substrate at 355°C using a Ru(C2H5C5H4)2- [Ru(EtCp)2] precursor and oxygen gas. The effects of the oxygen flow rate on film composition, microstructure, surface morphology, stress, and resistivity were investigated. The oxygen content in the film increases as the oxygen flow rate increases and saturates at a flow of 1200 sccm. Films deposited with an O2 flow rate of 800 sccm or less have the structure of the ruthenium phase, a <001> texture, and smooth surface morphology. Films deposited with an O2 flow rate of 1200 sccm or above have the structure of the ruthenium dioxide phase and higher surface roughness. Ru-phase films have a high stress level and low resistivity; the increase of oxygen flow rate from 50 to 800 sccm results in a decrease of stress from 8 to 5 G dyn/cm2 and an increase of resistivity from 19 to 48 μΩ cm. RuO2-phase films have a relatively low stress level (2 G dyn/cm2), which does not change significantly with the oxygen flow rate, and high resistivity which slightly decreases from 120 to 115 μΩ cm as the oxygen flow rate increases from 1200 to 2000 sccm.",

author = "{Gopal Ganesan}, P. and M. Eizenberg and C. Dornfest",

year = "2002",

month = sep,

doi = "10.1149/1.1495910",

language = "英语",

volume = "149",

pages = "G510--G516",

journal = "Journal of the Electrochemical Society",

issn = "0013-4651",

publisher = "Electrochemical Society, Inc.",

number = "9",

}

TY - JOUR

T1 - Chemical vapor deposited RuOx films. Effect of oxygen flow rate

AU - Gopal Ganesan, P.

AU - Eizenberg, M.

AU - Dornfest, C.

PY - 2002/9

Y1 - 2002/9

N2 - Ruthenium and ruthenium oxide films were deposited on a Ru/SiO2/Si substrate at 355°C using a Ru(C2H5C5H4)2- [Ru(EtCp)2] precursor and oxygen gas. The effects of the oxygen flow rate on film composition, microstructure, surface morphology, stress, and resistivity were investigated. The oxygen content in the film increases as the oxygen flow rate increases and saturates at a flow of 1200 sccm. Films deposited with an O2 flow rate of 800 sccm or less have the structure of the ruthenium phase, a <001> texture, and smooth surface morphology. Films deposited with an O2 flow rate of 1200 sccm or above have the structure of the ruthenium dioxide phase and higher surface roughness. Ru-phase films have a high stress level and low resistivity; the increase of oxygen flow rate from 50 to 800 sccm results in a decrease of stress from 8 to 5 G dyn/cm2 and an increase of resistivity from 19 to 48 μΩ cm. RuO2-phase films have a relatively low stress level (2 G dyn/cm2), which does not change significantly with the oxygen flow rate, and high resistivity which slightly decreases from 120 to 115 μΩ cm as the oxygen flow rate increases from 1200 to 2000 sccm.

AB - Ruthenium and ruthenium oxide films were deposited on a Ru/SiO2/Si substrate at 355°C using a Ru(C2H5C5H4)2- [Ru(EtCp)2] precursor and oxygen gas. The effects of the oxygen flow rate on film composition, microstructure, surface morphology, stress, and resistivity were investigated. The oxygen content in the film increases as the oxygen flow rate increases and saturates at a flow of 1200 sccm. Films deposited with an O2 flow rate of 800 sccm or less have the structure of the ruthenium phase, a <001> texture, and smooth surface morphology. Films deposited with an O2 flow rate of 1200 sccm or above have the structure of the ruthenium dioxide phase and higher surface roughness. Ru-phase films have a high stress level and low resistivity; the increase of oxygen flow rate from 50 to 800 sccm results in a decrease of stress from 8 to 5 G dyn/cm2 and an increase of resistivity from 19 to 48 μΩ cm. RuO2-phase films have a relatively low stress level (2 G dyn/cm2), which does not change significantly with the oxygen flow rate, and high resistivity which slightly decreases from 120 to 115 μΩ cm as the oxygen flow rate increases from 1200 to 2000 sccm.

UR - http://www.scopus.com/inward/record.url?scp=0036749325&partnerID=8YFLogxK

U2 - 10.1149/1.1495910

DO - 10.1149/1.1495910

M3 - 文章

AN - SCOPUS:0036749325

SN - 0013-4651

VL - 149

SP - G510-G516

JO - Journal of the Electrochemical Society

JF - Journal of the Electrochemical Society

IS - 9

ER -

Chemical vapor deposited RuO_x films. Effect of oxygen flow rate

Abstract

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this