Evaluation of Anode Water Electrolyzed with Anion Exchange Membrane for Cleaning EUV Semiconductor

Evaluation of Anode Water Electrolyzed with Anion Exchange Membrane for Cleaning EUV Semiconductor

Electrically nonconducting UPW was electrolyzed without electrolyte through anion exchange membrane for evaluating applicability to EUV semiconductor cleaning. Produced anode water held positive ORP up to 900 mV, which is very oxidative. ORP, pH, and conductivity measurements showed delicately compl...

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Bibliographic Details
Published in:ECS Advances Vol. 2; no. 4; pp. 40510 - 40517
Main Authors: Kim, Hyungwon, Lim, Sungmin, Ryoo, Kunkul, Choi, Insik, Choi, Byungsun, Kim, Jaeyoung, Jung, Younwon
Format: Journal Article
Language:English
Published: IOP Publishing 01-12-2023
Subjects:
AEM
conductivity
electrolyzed water
EUV
ORP
Online Access:Get full text
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Summary:Electrically nonconducting UPW was electrolyzed without electrolyte through anion exchange membrane for evaluating applicability to EUV semiconductor cleaning. Produced anode water held positive ORP up to 900 mV, which is very oxidative. ORP, pH, and conductivity measurements showed delicately complementary each other for understanding anode water. Correlation of concurrent ORP decrease and conductivity increase in ultra-pure anode water domain was observed first time. The oxidative OH° was formed as the major species in anode water, causing positive ORP during ORP measurement. H + and OH − ions, and OH° radical coexisted in anode water at amphoteric nonequilibrium, while pH was less than 6. It was concluded that OH°, as a strong oxidant, transformed itself to OH − by ORP measurement. OH° radical would oxidize selectively and then remove nano-contaminants. Anode water is considered to fulfill the requirement of EUV semiconductor cleaning where no oxygen species should be required because of likely oxide layer formation during cleaning, and it will even remove the native oxide developed unintentionally before cleaning.
Bibliography:ECSA-100169.R1
ISSN:2754-2734
2754-2734
DOI:10.1149/2754-2734/ad1270