[1. Reinprecht, L. Ochrana dřeva, 2008th ed.; TU Zvolen: Zvolen, 2008.]Search in Google Scholar
[2. Saka, S.; Uento, T. Several SiO2 wood-inorganic composites and their fi re-resisting properties. Wood Sci. Technol. 1997, 31 (6), 457-466.]Search in Google Scholar
[3. Terziev, N.; Temiz, A. Wood Modifi cation: Processes, Properties a Commercialisation. In Chemical modifi cation of wood with silicon compounds, 2nd European Conference on Wood Modifi cation, Gottingen (Germany); 2005; pp 242-245.]Search in Google Scholar
[4. Donath, S.; Militz, H., Mai, C. Creating water-repellent effects on wood by treatment with silanes. Holzforschung 2006, 60 (1), 40-46.10.1515/HF.2006.008]Search in Google Scholar
[5. Donath, S.; Militz, H.; Mai, C. Weathering of silane treated wood. Holz Roh-Werkst 2007, 65, 35-42.10.1007/s00107-006-0131-y]Search in Google Scholar
[6. Mohammed-Ziegler, I. et al. Water-repellent acylated and silylated wood samples and their surface analytical characterization. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2008, 319(1), 204-212.10.1016/j.colsurfa.2007.06.063]Search in Google Scholar
[7. De Vetter, L.; Stevens, M.; Van Acker, J. Fungal decay resistance and durability of organosilicon-treated wood. International Biodeterioration & Biodegradation 2009, 63, 130-134.]Search in Google Scholar
[8. Pfeffer, A; Mai, C.; Militz, H. Weathering characteristics of wood treated with water glass, siloxane or DMDHEU. European Journal of Wood and Wood Products 2012, 70(1-3), 165-176.10.1007/s00107-011-0520-8]Search in Google Scholar
[9. Reinprecht, L.; Pánek, M.; Daňková, J.; Murínová, T.; Mec, P.; Plevová, L. Performance of methyl-tripotassiumsilanol treated wood against swelling in water, decay fungi and moulds. Wood Research 2013, 58(4), 511-520.]Search in Google Scholar
[10. Reinprecht, L.; Grznárik, T. (2014) Fungal resistance of Scots pine modifi ed with organo-silanes alone and in combination with fungicides. In: Section „Chemical Modifi cation, The 7th European Conference on Wood Modifi cation, Lisbon (Portugal); 2014; Abstract: pp. 101.]Search in Google Scholar
[11. Daňková, J.; Plevová, L. Trvanlivost hydrofobizovaných dřevěných konstrukcí, Koroze a ochrana materiálů 2010, 54(4), 204-207.]Search in Google Scholar
[12. ČSN EN 113. Ochranné prostředky na dřevo - Zkušební metody pro stanovení ochranné účinnosti proti dřevokazným houbám Basidiomycetes - Stanovení hranice účinnosti.. Praha: ČNI, 1998. 27 p.]Search in Google Scholar
[13. Chittenden, C.; Singh, T. Antifungal aktivity of essentials oils againist wood degrading fungi and thein applications as wood preservatives. International Wood Products Journal 2011, 2(1), 44-48.10.1179/2042645311Y.0000000004]Search in Google Scholar
[14. ČSN EN 15457. Nátěrové hmoty - Laboratorní metody zkoušení účinnosti ochranných povlaků proti působení hub a plísní.. Praha: ČNI, 2008. 16 p.]Search in Google Scholar
[15. ASTM D4446-08. Standard test method for anti-swelling effectiveness of water-repellent formulations and differential swelling of untreated wood when exposed to liquid water environments.. West Conshohocken (USA): ASTM Int´l, 2008. 5 p.]Search in Google Scholar