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- Plasma polymerization (7) (entfernen)
Communication: Fire retardant coatings are deposited on polyamide-66 using plasma polymerisation. Chemical composition and thickness of deposits are adjusted varying the plasma treatment based on hexamethydisiloxane mixed with oxygen. The fire retardancy performances are evaluated using a cone calorimeter. The correlation between fire retardancy and thickness as well as chemical composition is discussed.
Polystyrene (PS) spin coated thin films were modified by O2 and Ar plasma as
well as by UV irradiation treatments. The modified PS samples were compared with
plasma polymerized and commercial polystyrene. The effects of plasma (O2 and Ar) and
UV irradiation treatments on the surface and the bulk properties of the polymer layers were
discussed. The surface properties were evaluated by X-ray Photoelectron Spectroscopy and
Contact angle measurements and the bulk properties were investigated by FTIR and
dielectric relaxation spectroscopy. As a result only one second treatment time was sufficient
to modify the surface. However, this study was also dedicated to understand the effect
of plasma and plasma irradiation on the deposited layers of plasma polymers. The
dielectric measurements showed that the plasma deposited films were not thermally stable
and underwent an undesired post-plasma chemical oxidation.
Copolymers of acrylic acid and styrene (AA/S) were prepared by pulsed plasma deposition technique. Their structure–property relationships were studied in dependence on the comonomer ratio. Both, the regularity of the structure and the composition of the thin copolymer films were investigated by bulk-sensitive (dielectric spectroscopy, FTIR, and differential scanning calorimetry) as well as surface-sensitive methods such as X-ray photoelectron spectroscopy (XPS). For an unambiguous identification of the functionality of the deposited films the COOH groups were estimated by derivatization with trifluoroethanol and subsequent XPS measurement as well as by the quantitative analysis of the FTIR data. As a result, the concentration of COOH groups on the surface and in the bulk is increasing with the fraction of AA in precursor mixture in a non-monotonous way but similar to the dependence obtained by conventional free radical polymerization.
Poly(allyl alcohol) films with a thickness of about 150 nm were deposited by pulse plasma polymerization onto different substrates (inorganic and organic). The structure/property relationships of these samples were studied in dependence on the duty cycle (DC) of the plasma by a broad combination of different techniques and probes. For the first time volume sensitive methods (FTIR and dielectric spectroscopy) are combined with surface analytics by employing XPS for that system. FTIR spectroscopy gives qualitatively the same dependence of the concentration of the OH groups on DC like XPS.
The observed differences are discussed considering the different analytical depths of both the methods. The dielectric measurements show that the plasma deposited films are not thermally stable but undergo a post plasma chemical reaction during heating. The results obtained by dielectric spectroscopy are discussed in detail with the data from FTIR and XPS measurements.