2020
DOI: 10.1021/acsomega.0c00357
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Preparation, Test, and Analysis of a Novel Aluminosilicate-Based Antimildew Agent Applied on the Microporous Structure of Wood

Abstract: Fungi play a considerable role in the deterioration of lignocellulose materials, as their activities either affect the esthetic properties or lead to decay of the host materials. The new generation of organic−inorganic preservatives, which are copperbased but chrome-and arsenic-free, is a subject of many research works. Mildew fungus prevention, treatment of affected materials, and their successive conservation are essential to the woodworkers. To prevent degradation and prolong the service life of wood, a sol… Show more

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Cited by 15 publications
(7 citation statements)
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“…Nanoparticles with well-known antimicrobial properties can be easily incorporated into polymeric matrixes or directly deposited onto the wood artifacts, allowing for the slow release of the NPs and a prolonged antimicrobial action as demonstrated by Harandi et al [55], Ion et al [62], and Yves et al [68]. The application of UV adsorbers (such as CeO 2 or ZnO) can represent a good solution for avoiding UV-related color changes in wood, especially the yellowing phenomenon (caused by the photodegradation of lignin and amorphous polysaccharides [7]) as proposed by Janesch et al [65] and Weththimuni et al [71].…”
Section: Brushing Of Maple Wood Samplesmentioning
confidence: 99%
“…Nanoparticles with well-known antimicrobial properties can be easily incorporated into polymeric matrixes or directly deposited onto the wood artifacts, allowing for the slow release of the NPs and a prolonged antimicrobial action as demonstrated by Harandi et al [55], Ion et al [62], and Yves et al [68]. The application of UV adsorbers (such as CeO 2 or ZnO) can represent a good solution for avoiding UV-related color changes in wood, especially the yellowing phenomenon (caused by the photodegradation of lignin and amorphous polysaccharides [7]) as proposed by Janesch et al [65] and Weththimuni et al [71].…”
Section: Brushing Of Maple Wood Samplesmentioning
confidence: 99%
“…Thermochromic wood veneers were prepared by Zhu et al through the ultrasonic impregnation of a thermochromic dye and a color developer [242]. The treated wood, which was very dark, could return to its original color between 28 • C and 38 • C, while the discoloration was reversible between 34 • C and 22 • C. Other publications reported the surface impregnation of chemicals to decrease the wettability [57], flammability [243], mold [244,245] and mildew [246] degradation, and dimensional instability [247] of various wood substrates.…”
Section: Wood Surface Impregnationmentioning
confidence: 99%
“…Accordingly, these coating methods must allow for working in large batches in order to keep a good production rate. Brushing and dipping were also used to perform the surface impregnation of different protective agents into wood substrates, with similar limitations [238][239][240][241]244,246,247]. A quite different, yet interesting method was presented by Volokitin et al, who modified pine and birch with a thermal plasma to produce only a layer of thermo-modified wood [193].…”
Section: Economical Aspectsmentioning
confidence: 99%
“…Each treatment was replicated on six samples. Following incubation, specimens were visually rated for mould growth on a scale of 0-4 where 0 denoted no fungal growth, 1 denoted < 25% of surface covered, 2 denoted 25 to < 50% of surface covered, 3 denoted 50 to < 75% of surface covered and 4 represented > 75% mould coverage (Clausen and Yang 2007;Yves et al 2020). Mould resistance was calculated using Eq.…”
Section: Mould Resistance Test Of Cinnamaldehyde Chitosan Emulsion-treated Poplar Woodmentioning
confidence: 99%