Metallization of Polymers Modified by Ton-Assisted Reaction (IAR)

  • J.S. Cho (Thin Film Technology Research Center, Korea Institute of Science Technology) ;
  • Bang, Wan-Keun (Plasma and Ion Beam Co. Ltd, Korea Institute of Science and Technology Venture Town) ;
  • Kim, K.H. (Thin Film Technology Research Center, Korea Institute of Science Technology) ;
  • Sang Han (Thin Film Technology Research Center, Korea Institute of Science Technology) ;
  • Y.B. Sun (Graduate School of Industrial Tech. and Information, Kyonggi Univ.) ;
  • S.K. Koh (Thin Film Technology Research Center, Korea Institute of Science Technology, Plasma and Ion Beam Co. Ltd, Korea Institute of Science and Technology Venture Town)
  • Published : 2001.03.01

Abstract

Surfaces of PTFE and PVDF were modified by ion-assisted reaction (IAR) in which 1 keV $Ar^{+}$ ions were irradiated on the surface of the polymer with varying ion dose in an oxygen gas environment, and Cu, Pt, Al and Ag thin films were deposited on the modified polymers. Wettability of the modified polymers was largely improved by the formation of hydrophilic groups due to chemical reaction between polymer surface and the oxygen gas during IAR. The change in wettability in the modified polymers was also related to the change in surface morphology and roughness. Adhesion between metal films and polymers modified by IAR was significantly improved, so that no detachment was possible in the $Scotch^{TM}$ tape test. The increase of adhesion strength between the metal film and the modified PVDF was mainly attributed to the formation of hydrophilic groups, which interacted with the metal film. In the case of the modified PTFE, the enhanced adhesion to metal film could be explained by the change in surface morphology together with the formation of hydrophilic groups. The electrical properties of the metal films on the modified polymers were also investigated.

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