Title of article
Characterization of PNIPAAm photografted on PET and PS surfaces
Author/Authors
Priscila S. Curti، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
11
From page
223
To page
233
Abstract
Aqueous solution of poly(N-isopropylacrylamide), or PNIPAAm, possess lower critical solution temperature (LCST) around
32–33 8C. Below this temperature the PNIPAAm is hydrophilic and above presents hydrophobic characteristics. In this work,
virgin or oxidized films of PETand PS were submitted to surface modification by grafting of PNIPAAm. The film was immersed
in aqueous solution of monomer and exposed to radiation from a low pressure Hg lamp (215 W) using KIO4 as photosensitizer.
Virgin, oxidized and PNIPAAm-grafted surfaces were characterized by drop water contact angle (DWCA), SEM, AFM,
nanoindentation and XPS techniques. When the grafted polymers are warmed to temperatures above LCST, significant change
on DWCA indicates the hydrophilic-to-hydrophobic transition. SEM and AFM images showed a rising of defects and roughness
on oxidized and grafted polymer surfaces, compared to the virgin ones. Results from nanoindentation showed that the oxidation
process does not produce significant alteration on mechanical properties. However, the PNIPAAm-grafting into PET decreased
the hardness and the elastic modulus of such surfaces. XPS analysis indicates significant alterations on atomic composition at
surface of polymers, due to the PNIPAAm-grafting. The degrees of grafting were calculated from the relative compositions of
nitrogen. The fraction of polymer surface covered by PNIPAAm was, at maximum 0.76. The grafting of PNIPAAm on PET and
PS, as investigated in this work, enables the surfaces to be applied as biomaterials, for instance, as substrates for adhesion,
growth and detachment of cells
Keywords
Photografting of PNIPAAm , Photografting on PET surfaces , Photografting on PS surfaces , PNIPAAm
Journal title
Applied Surface Science
Serial Year
2005
Journal title
Applied Surface Science
Record number
1000981
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