In-situ measurements of Stress during electrodeposition of copper nanofilms: Effect of growth rate and additives

Joe A. Murphy; Catherine Lenihan; Maria Rybalchenko; Nathan Quill; Andrea Bourke; Michael O'Grady; Robert P. Lynch; D. Noel Buckley

doi:10.1149/08513.1071ecst

In-situ measurements of Stress during electrodeposition of copper nanofilms: Effect of growth rate and additives

Joe A. Murphy, Catherine Lenihan, Maria Rybalchenko, Nathan Quill, Andrea Bourke, Michael O'Grady, Robert P. Lynch, D. Noel Buckley

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Citations (Scopus)

Abstract

Stress was measured in situ during electrodeposition of copper nanofilms. Grain size was measured using both in-situ AFM and exsitu SEM imaging and showed that grain size increased with time for about the first 10 depositions and thereafter became approximately constant. Films deposited at low growth rates had compressive stress while films deposited at higher growth rates had tensile stress. The transition from compressive to tensile stress occurred at a growth rate of-1 nm s^-1, in reasonable agreement with the literature. Our data supports Chason's model for stress development during thin film deposition. Addition of chloride gives decreased stress, a rougher surface and larger grains. Addition of PEG alone has very little effect on the stress in the deposit. The reduction in stress due to chloride is still observed when PEG is also added and this greatly reduces the surface roughness which occurs with the addition of chloride alone.

Original language	English
Title of host publication	ECS Transactions
Publisher	Electrochemical Society, Inc.
Pages	1071-1086
Number of pages	16
Edition	13
ISBN (Electronic)	9781607688419
ISBN (Print)	9781510866171
DOIs	https://doi.org/10.1149/08513.1071ecst
Publication status	Published - 2018
Event	233rd Meeting of the Electrochemical Society - Seattle, United States Duration: 13 May 2018 → 17 May 2018

Publication series

Name	ECS Transactions
Number	13
Volume	85
ISSN (Print)	1938-6737
ISSN (Electronic)	1938-5862

Conference

Conference	233rd Meeting of the Electrochemical Society
Country/Territory	United States
City	Seattle
Period	13/05/2018 → 17/05/2018

Access to Document

10.1149/08513.1071ecst

Cite this

Murphy, J. A., Lenihan, C., Rybalchenko, M., Quill, N., Bourke, A., O'Grady, M., Lynch, R. P., & Buckley, D. N. (2018). In-situ measurements of Stress during electrodeposition of copper nanofilms: Effect of growth rate and additives. In ECS Transactions (13 ed., pp. 1071-1086). (ECS Transactions; Vol. 85, No. 13). Electrochemical Society, Inc.. https://doi.org/10.1149/08513.1071ecst

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title = "In-situ measurements of Stress during electrodeposition of copper nanofilms: Effect of growth rate and additives",

abstract = "Stress was measured in situ during electrodeposition of copper nanofilms. Grain size was measured using both in-situ AFM and exsitu SEM imaging and showed that grain size increased with time for about the first 10 depositions and thereafter became approximately constant. Films deposited at low growth rates had compressive stress while films deposited at higher growth rates had tensile stress. The transition from compressive to tensile stress occurred at a growth rate of-1 nm s-1, in reasonable agreement with the literature. Our data supports Chason's model for stress development during thin film deposition. Addition of chloride gives decreased stress, a rougher surface and larger grains. Addition of PEG alone has very little effect on the stress in the deposit. The reduction in stress due to chloride is still observed when PEG is also added and this greatly reduces the surface roughness which occurs with the addition of chloride alone.",

author = "Murphy, {Joe A.} and Catherine Lenihan and Maria Rybalchenko and Nathan Quill and Andrea Bourke and Michael O'Grady and Lynch, {Robert P.} and Buckley, {D. Noel}",

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year = "2018",

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isbn = "9781510866171",

series = "ECS Transactions",

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Murphy, JA, Lenihan, C, Rybalchenko, M, Quill, N, Bourke, A, O'Grady, M, Lynch, RP & Buckley, DN 2018, In-situ measurements of Stress during electrodeposition of copper nanofilms: Effect of growth rate and additives. in ECS Transactions. 13 edn, ECS Transactions, no. 13, vol. 85, Electrochemical Society, Inc., pp. 1071-1086, 233rd Meeting of the Electrochemical Society, Seattle, United States, 13/05/2018. https://doi.org/10.1149/08513.1071ecst

In-situ measurements of Stress during electrodeposition of copper nanofilms: Effect of growth rate and additives. / Murphy, Joe A.; Lenihan, Catherine; Rybalchenko, Maria et al.
ECS Transactions. 13. ed. Electrochemical Society, Inc., 2018. p. 1071-1086 (ECS Transactions; Vol. 85, No. 13).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - In-situ measurements of Stress during electrodeposition of copper nanofilms

T2 - 233rd Meeting of the Electrochemical Society

AU - Murphy, Joe A.

AU - Lenihan, Catherine

AU - Rybalchenko, Maria

AU - Quill, Nathan

AU - Bourke, Andrea

AU - O'Grady, Michael

AU - Lynch, Robert P.

AU - Buckley, D. Noel

PY - 2018

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N2 - Stress was measured in situ during electrodeposition of copper nanofilms. Grain size was measured using both in-situ AFM and exsitu SEM imaging and showed that grain size increased with time for about the first 10 depositions and thereafter became approximately constant. Films deposited at low growth rates had compressive stress while films deposited at higher growth rates had tensile stress. The transition from compressive to tensile stress occurred at a growth rate of-1 nm s-1, in reasonable agreement with the literature. Our data supports Chason's model for stress development during thin film deposition. Addition of chloride gives decreased stress, a rougher surface and larger grains. Addition of PEG alone has very little effect on the stress in the deposit. The reduction in stress due to chloride is still observed when PEG is also added and this greatly reduces the surface roughness which occurs with the addition of chloride alone.

AB - Stress was measured in situ during electrodeposition of copper nanofilms. Grain size was measured using both in-situ AFM and exsitu SEM imaging and showed that grain size increased with time for about the first 10 depositions and thereafter became approximately constant. Films deposited at low growth rates had compressive stress while films deposited at higher growth rates had tensile stress. The transition from compressive to tensile stress occurred at a growth rate of-1 nm s-1, in reasonable agreement with the literature. Our data supports Chason's model for stress development during thin film deposition. Addition of chloride gives decreased stress, a rougher surface and larger grains. Addition of PEG alone has very little effect on the stress in the deposit. The reduction in stress due to chloride is still observed when PEG is also added and this greatly reduces the surface roughness which occurs with the addition of chloride alone.

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In-situ measurements of Stress during electrodeposition of copper nanofilms: Effect of growth rate and additives

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