[1] Veigel, S., Müller, U., Keekes, J., Oberstriebnig, M. and Gindl-Altmutter, W., 2011. Cellulose nanofibrils as filler for adhesives: effect on specific fracture energy of solid wood-adhesive bonds. Cellulose, 18:1227-1237.
[2] Lie, H., Pizzi, G. and Celzard, A., 2008. Influence of nanoclay on urea-formaldehyde resins for wood adhesives and its model. Journal of aplied polymer science, 109:2442–2451.
[3] Zhang, Y., You, B., Huang, H., Zhou, S., Wu, L. and Sharma, A., 2008. Preparation of nanosilica reinforced waterborne silylatedpolyether adhesive with high shear strength. J ApplPolymSci, 109(4):2434–2441.
[4] Ahmad, Z., Ansell, M.P. and Smedley, D., 2010. Epoxy adhesives modified with nano- and micro particles for in situ timberbonding: effect of microstructure on bond integrity. IntJMech Mater Eng, 5(1):59–67.
[5] May, M., Wang, H.M. and Akid, R., 2010. Effects of the addition of inorganic nanoparticles on the adhesive strength of ahybridsolgel epoxy system. Int J AdhesAdhes, 30(6):505–512.
[6] Khoee, S. and Hassani, N., 2010. Adhesion strength improvement of epoxy resin reinforced with nanoelastomericcopolymer.MatSciEng A Struct, 527(24–25):6562–6567.
[7] Hsiao, KT., Alms, J. and Advani, S.G., 2003.Use of epoxy/multiwalled carbon nanotubes as adhesives to join graphite fibrereinforcedpolymer composites. Nanotechnology,14 (7):791–793.
[8] Prolongo, S.G., Gude, M.R. and Urena, A., 2009. Synthesis and characterization of epoxy resins reinforced with carbonnanotubes and nanofibers. J NanosciNanotechno, 9(10):6181–6187.
[9] Prolongo, S.G., Gude, M.R. and Urena, A., 2010. Rheological behavior of nanoreinforced epoxy adhesives of low electricalresistivity for joining carbon fiber/epoxy laminates. J AdhesSciTechnol, 24(6):1097–1112.
[10] Yoon, S.H., Kim, B.C., Lee, K.H. and Lee, D.G., 2010.Improvement of the adhesive fracture toughness of bonded aluminum jointsusing e-glass fibers at cryogenic temperature. J AdhesSciTechnol, 24(2):429–444.
[11] Kaboorani, A. and Reidl, B., 2011. Effects of adding nano-clay on performance of poly vinyl acetate (PVA) as a wood adhesive. Composites, Part A, 42:1031–1039.
[12] Qiaojia, L., Guidi, Y., Jinghong, L. and Jiuping, R., 2006. Property of nano-SiO2 / urea formaldehyde resin. Journal of Fujian Agriculture and Forestry, 2: 230-237.
[13] Khayamnekuie, M., Biazar, E. and Salehijozani, Gh., 2010. Nanotechnology in agriculture. Institute of agricultural biotechnology publications, Karaj, 241 p.( In Persian).
[14] Kalia, B. Kaith, B. and Kaur, I., 2011. Cellulose Fibers: Bio- and Nano-Polymer Composites, Green Chemistry and Technology.Springer, India, 758 p.
[15] Atta-obeng, E., 2011. Characterization of phenol formaldehyde adhesive and adhesive-wood particle composite reinforced with microcrystalline cellulose. A thesis submitted to the Graduate Faculty of Auburn University in partial fulfillment of the requirements for the degree of Master of Science, 93p.
[16] Yousefi, H., Ebrahimi, GH, Mashkur, M. and Nishino, T., 2010. Cellulose nanofiber (CNF) for nanocomposites production: Opportunities and challenge. Proceeding of the sixth international workshop on green composites (IWGC-6), Kumoh national institute of technology, Gumi, Gyeongbuk, Korea September 8-10.151-154.
[17] Gao, Q., Li, J., Liang, K. and Zhang, X., 2012. Soy bean meal-based adhesive reinforced with cellulose nano-whiskers. Bioresources, 7(4):5622–5633.
[18] Dashti, H., Salehpur, Sh., Taghiyari, H.R., Akbarifar, F. and Heshmati, S., 2012. The effect of nano clay on the mass transfer properties of plywood. Digest journal of nanomaterial and biostructures, 7(3):853–860.
[19] Dong, H. K. and Arthur, J., 2004. Enhanced composite board curing and performance via nano clays. (Conference). Paper summit Spring Technical and International Environmental Conference. Atlanta, GA, United States, 5: 387-391.
[20] Hong, L., Guanben, D., Pizzi, A. and Celzard, A., 2008. Influence of nanoclay on urea-formaldehyde resins for wood adhesives and its model. Journal of Applied Polymer Science, 109(4): 2442-2451.
[21] Jinshu, S., Jianzhang, L., Wenrui, Z. and Derong, Z., 2007. Improvement of wood properties by urea formaldehyde resin and nano-SiO2. Frontiers of Forestry, 2(1): 104-109.