Fungal inhibition and chemical characterization of wood treated with novel polystyrene-soybean oil copolymer containing silver nanoparticles
Özet
In this study, Scots pine (Pinus sylvestris L.) samples were impregnated with autoxidized soybean oil polymer
containing Ag nanoparticles (Agsbox) and polystyrene-soybean oil copolymer (AgPSsb) in order to inhibit whiterot
fungus (Trametes versicolor). Chemical changes of the impregnated specimens were characterized by FTIR
techniques. The higher concentration of nano preservative resulted in higher weight percent gain (WPG) in the
impregnated samples. The samples impregnated with 1.5% of Agsbox, had the highest WPG (2.98%). The silver
nanocomposite-impregnated wood specimens improved the anti-fungal properties. In addition, treatment with
0.4% AgPSsb resulted in the lowest moisture content (23.4%) after decay tests. In the samples, the lowest weight
loss (0.87%) due to fungal decay was observed with the use of 0.4 wt% of AgPSsb. Mass losses of Agsbox
impregnated specimens at 1.5% and 0.04% were 2.86% and 4.61% respectively. The FTIR spectra of the specimens
impregnated with the nanocomposites showed the impregnated components at the peaks of 2910 cm−1
and 1714 cm−1 in particular.