Chin Tun Chuang scite author profile

Chin Tun Chuang

2Publications

2Citation Statements Received

6Citation Statements Given

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St. John's University

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RETRACTED: Study of Parylene-C Thin Film Deposited on Flat Substrates

Tsai

Chuang

et al. 2012

AMM

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This work aims to enhance the surface wettability and adhesion of Parylene-C (poly-chloro-p-xylylene C) thin film on PMMA, glass and aluminum substrates by chemical vapor deposition. The results show that: (1) 0.56, 1, and 1.55g Parylene-C powders can deposit 200, 400, and 600nm films, respectively. (2) After oxygen-plasma pretreatment, the surface roughness of the 200nm-thickness film on glass substrate specimens decreases from 18nm to 7nm. (3) After dipped in prescription solution pretreatment, the residual stress reduces from 107MPa to 64MPa on glass substrate specimens. (4) In contact angle tests, the 600nm-thickness film on various flat substrates deposited process that has surface hydrophobic. (5) The critical load of 600nm-thickness film increases from 14.1 to 18.5mN, showing the substrate after dipped in prescription solution pretreatment can improve the adhesion of the Parylene-C thin film on flat glass substrate specimens.

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RETRACTED: The Adhesion Properties of Parylene-C Thin Films

Chuang¹,

Tsai

Kuo

et al. 2013

AMM

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This work aims to enhance the adhesion of Parylene-C (poly-chloro-p-xylylene C) thin film on PMMA, Glass and Aluminum substrates by chemical vapor deposition, surface improvement and treatment of substrate as well as analysis of film on Glass, PMMA, Aluminum and its surface adhesion by dipping under A-174 silane solution and conducting on plasma treatment (18 W). The results show that: (1) After oxygen-plasma pretreatment, the surface roughness of the 200nm-thickness film on glass substrate specimens decreases from 18nm to 7nm. (2) After dipped in prescription solution pretreatment, the residual stress reduces from 107MPa to 64MPa on glass substrate specimens. (3) The critical load of 600nm-thickness film increases from 14.1 to 18.5mN, showing the substrate after dipped in prescription solution pretreatment can improve the adhesion of the Parylene-C thin film on flat glass substrate specimens.

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Chin Tun Chuang

RETRACTED: Study of Parylene-C Thin Film Deposited on Flat Substrates

RETRACTED: The Adhesion Properties of Parylene-C Thin Films

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