Title of article
Surface modification of active metals through atom transfer radical polymerization grafting of acrylics
Author/Authors
Rachel Gong، نويسنده , , Shane Maclaughlin، نويسنده , , Shiping Zhu، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
8
From page
6802
To page
6809
Abstract
The objective of this work is to investigate the fundamentals of surface-initiated atom transfer radical polymerization (s-ATRP) on metal substrates. Acrylic polymers were grafted from active metal surfaces such as cold rolled steel (CRS), stainless steel (SS) and nickel (Ni) through s-ATRP. Severe deactivation was found with copper bromide bipyridine catalyst. Controlled polymerization with relatively low polydispersities, 1.18–1.35, was achieved using iron bromide triphenylphosphine catalyst. Polymer films up to 80 nm in thickness were obtained within 80 min. Grafting densities were estimated to be 0.58 chains/nm2 for CRS-g-PMMA, 0.55 chains/nm2 for Ni-g-PMMA, 0.18 chains/nm2 for SS-g-PMMA, and 0.66 chains/nm2 for SS-g-PDMAEMA. Electrochemical experiments were also carried out to measure the polarization resistance and corrosion potential of CRS-g-PMMA substrates. Metal surfaces with grafted brush polymer coatings showed significant corrosion resistance. This work demonstrated that the surface-initiated ATRP is a versatile means for the surface modification of active metals with well-defined and functionalized polymer brushes.
Keywords
Acrylics , Steel , Atom transfer radical polymerization (ATRP) , Surface modification , Polymer grafting , Corrosion resistance , nickel
Journal title
Applied Surface Science
Serial Year
2008
Journal title
Applied Surface Science
Record number
1009599
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