1- Sjostrom, E., 1993. Wood Chemistry Fundamentals and Applications; Academic Press: San Diego, p 293.
2- Stamm, A. J. and Millett, A., 1940. The Internal Surface of Cellulosic Materials, Presented at the Seventeenth Colloid Symposium, Ann Arbor, Michigan, June 6-8, 43-45.
3- Chin, J., Byrd, E., Martin, J. and Nguyen, T., 2005. Validation of the Reciprocity Law for Coating Photo degradation, J. Coat. Technol. Res., 2 (7):499–508.
4- Sturm, Jeffrey, C. 1994. Method of waterproof wood and associated composition, United States patent 5968294.
5- Mansouryar, I. 2008. The Water Repellency of Poplar Wood by Paraffin Emulsion, Quaternary ammonium and hydrated starch using full-cell treatment. M. Sc. Thesis, Faculty of Natural Resources, University of Tehran, 102 pages (In prsian).
6- Eldwson, T., Bergstrom and Hamalainen, M., 2003. Moisture dynamics in Norway spruce and scots pin during outdoor exposure in relation to different surface Hutments and handling condition Holzforschuung, 57:219-227.
7- Gholamiyan, H., Tarmian, A and Azadfallah, M. 2011. Gas and Water Permeability of Poplar Coated with Paints and Nano-particles. Journal of Forest and Wood Products (JFWP), Iranian Journal of Natural Resources, Vol. 63, No. 3, 2010. pp.281-291.
8- Robert, D, & Philip. E. 1991. Permeability of Shellac Coatings to Gases and Water Vapor. American chemical society. 39, 5.
9- Rolleri, A. Roffael, E. 2010. influence the surface roughness of part clipboards and their performance towards coating. maderas CIENCIA Y TECNOLOGIA. 12(2):143-148.
10- Keshani, S., 2006. The effect composition of polyester, acid catalyzed lacquers and nitrocellulose lacquers ”Fagus orientalis” wood and plywood furniture, M. Sc. Thesis, Faculty of Natural Resources, University of Tehran. 185 pages (In prsian).
11- Faucheu J, Wood KA, Sung LP, Martin JW, 2006. Relating Gloss Loss to Topographical Features of a PVDF Coating. J. Coatings Technol. Res. 3: 29-39.
12- Morshed, M., 2002. Modification of wood by graft treatment to enhance water repellency, MSc. Thesis. Mississipping State University Department of Forest Products. 188 pages.
13- Lee, Y.K. Kim, H.J. Park, H.J. 2002. Performance of water-repellent treated wooden bath by contact angle analysis. J. Ind. Eng. Chem. vol 8, 6. 206-514.
14- Celiker, G., 2005. Nanotechnology in Packaging Industry and Its Applications, Presented at the 4th , Packaging Congress, Turkey. 120-128.
15- Mahmodi, M., 1386. Nano technology simply, Publications sabzan, 100 (In prsian).
16- Kaygin B, and Akgun E., 2008. Comparison of Conventional Varnishes with Nanolacke UV Varnish With Respect to Hardness and Adhesion Durability, Int. J. Mol. Sci. 9: 476-485.
17- Kaygin B, and Akgun E., 2009. A nano-technological product: An innovative varnish type for wooden surfaces, Scientific Research and Essay, 4 (1), 1-7.
18- Matsunaga , H., Kiguchi, M. and Philip, D., 2009. Microdistribution of copper-carbonate and iron oxide, nanoparticles in treated wood, J Nanopart Res, 11:1087–1098.
19- Leach, R. M., and Zhang, J., 2004. Micronized wood preservative formulations comprising metal compounds and organic biocides, World Patent 2004091875, 32 pp.
20- Leach, R. M. and Zhang, J., 2005. Micronized wood preservative formulation, World Patent 2005104841, 26.
21- Chen, R., Chen, D, and Li, H., 2006. Wood preservative containing copper and ammonium compounds, Chinese Patent 1883899, 10.