常佳.2009.木材微波预处理与超声波辅助染色的研究.北京:中国林业科学研究院博士学位论文. (Chang J.2009.The study on the wood microwave pre-treatment and ultrasonic dyeing.Beijing:PhD thesis of Chinese Academy of Forestry.[in Chinese]). 崔晓霞, 张小丽, 唐焕威, 等.2012.落叶松树皮活性物质提取及红外光谱分析.光谱学与光谱分析, 32(7):1810-1814. (Cui X X, Zhang X L, Tang H W, et al.2012.Study on extracts of active substances from larch bark by FTIR.Spectroscopy and Spectral Analysis, 32(7):1810-1814.[in Chinese]). 郭洪武, 刘毅, 付展, 等.2015.乙酞化处理对樟子松木材耐光性和热稳定性的影响.林业科学, 51(6):136-140. Guo H W, Liu Y, Fu Z, et al.2015.Effect of acetylation treatment on light fastness and thermal stability of Pinus sylvestris var. mongolica wood.Scientia Silvae Sinicae, 51(6):136-140. 郭璐瑶.2015.纳米二氧化钛分散及其表面改性研究.上海:东华大学硕士学位论文. (Guo L Y.2015.Study on dispersion and the surface modification of nanometer titanium dioxide.Shanghai:MS thesis of Donghua University.[in Chinese]). 李凤竹.2014.木材纳米复合防腐剂MCZ的制备及其性能研究.哈尔滨:东北林业大学硕士学位论文. (Li F Z.2014.Preparation of nano composite wood preservation MCZ and study on its performance.Harbin:MS thesis of Northeast Forestry University.[in Chinese]). 李坚.2014.木材科学.北京:科学出版社, 133-147. (Li J.2014.Wood science.Beijing:Science Press, 133-147.[in Chinese]). 李雪松.2015.二氧化钛基纳米复合光催化剂的制备及其性能研究.长春:吉林大学硕士学位论文. (Li X S.2015.Synthesis of titanic-based composite photocatalysts and their properties.Changchun:MS thesis of Jilin University.[in Chinese]). 李宇宇, 李瑞, 田启魁, 等.2011.热重法研究落叶松热解动力学特性.东北林业大学学报, 39(7):63-66. (Li Y Y, Li R, Tian Q K, et al.2011.Pyrolysis kinetics of larch wood by thermogravimetric analysis.Journal of Northeast Forestry University, 39(7):63-66.[in Chinese]) 毛丽婷, 汪洋, 朱丽虹.2015.TiO2/木材复合材料的制备及其性能研究.林产工业, (7):21-25. (Mao L T, Wang Y, Zhu L H.2015.Research on preparation of TiO2-wood composites and its properties.China Forest Products Industry, (7):21-25.[in Chinese]). 唐朝发, 李岩, 李春风, 等.2015.不同抗菌剂对浸渍薄木抗菌性能影响的研究.林产工业, (2):29-31. (Tang C F, Li Y, Li C F, et al.2015.Effect of different anti-bacterial agencies on properties of veneer impregnated melamine formaldehyde resin.China Forest Products Industry, (2):29-31. 王敏, 吴义强, 胡云楚, 等.2012.纳米二氧化钛基木材防腐剂的分散特性与界面特征.中南林业科技大学学报, 32(1):51-55. (Wang M, Wu Y Q, Hu Y C, et al.2012.Dispersion and interface characteristics of nano-TiO2 based wood preservatives.Journal of Central South Univeisity of Forestry & Technology, 32(1):51-55.[in Chinese]). 薛振华, 赵广杰.2007.不同处理方法对木材结晶性能的影响.西北林学院学报, 22(2):169-171. (Xue Z H, Zhao G J.2007.Influence of different treatments on wood crystal properties.Journal of Northwest Forestry University, 22(2):169-171.[in Chinese]). 薛晓明, 南程慧.2016.7种针叶树材红外光谱(FTIR)特征的比较与分析.安徽农业大学学报, 43(1):88-93. (Xue X M, Nan C H.2016.Comparison of FTIR spectra in seven conifer softwood samples. Journal of Anhui Agricultural University, 43(1):88-93.[in Chinese]). 杨优优, 卢凤珠, 鲍滨福, 等.2012.载银二氧化钛纳米抗菌剂处理竹材和马尾松的防霉和燃烧性能.浙江农林大学学报, 29(6):910-916. (Yang Y Y, Lu F Z, Bao B F, et al.2012.Mould and fire resistance of Phyllostachys edulis and Pinus massoniana treated with a nano antibiotic agent, TiO2 doped-Ag.Journal of Zhejiang A & F University, 29(6):910-916.[in Chinese]). 袁光明, 刘元, 胡云楚, 等.2008.几种用于木材/无机纳米复合材料的纳米粒子分散与改性研究.武汉理工大学学报:交通科学与工程版, 32(1):142-145. (Yuan G M, Liu Y, Hu Y C, et al.2008.Study on the dispersion mechanism of nano particles in the composites of wood with nano inorganic particle.Journal of Wuhan University of Technology:Transportation Science & Engineering, 32(1):142-145.[in Chinese]). 赵紫剑, 何正斌, 沙汀鸥, 等.2014.超声波辅助木材常压浸渍工艺初探.木材加工机械, (2):47-50. (Zhao Z J, He Z B, Sha T O, et al.2014.Preliminary study on ultrasound-assisting wood impregnation at atmospheric pressure.Wood Processing Machinery, (2):47-50.[in Chinese]). 周腊.2015.抗菌浸渍薄木饰面装饰板的制备工艺与性能研究.北京:北京林业大学硕士学位论文. (Zhou L.2015.Study on preparation technology and properties of board decorated by antimicrobial impregnated veneer.Beijing:MS thesis of Beijing Forestry University.[in Chinese]) Abidi N, Hequet E, Tarimals S, et al.2007.Cotton fabric surface modification for improved UV radiation protection using sol-gel process.Journal of Applied Polymer Science, 104(1):111-117. Chen H Y, Lang Q, Bi Z, et al.2013.Impregnation of poplar wood (Populus euramericana) with methylolurea and sodium silicate sol and induction of in-situ gel polymerization by heating.Holzforschung, 68(1):45-52. Feng N C, Xu D Y, Qiong W.2009.Antifungal capability of TiO2 coated film on moist wood.Building and Environment, 44(5):1088-1093. Fuente-Blanco S D L, Sarabia E R F D, Acosta-Aparicio V M, et al.2006.Food drying process by power ultrasound.Ultrasonics, 44:e523-e527. Gašparovi Dč L, Koreňová Z, Jelemensk Dy' L'.2010.Kinetic study of wood chips decomposition by TGA.Chemical Papers, 64(2):174-181. Ghonche R, Yaser A, Ardeshir A.2012.Deposition of TiO2 nano-particles on wood surfaces for UV and moisture protection.Journal of Experimental Nanoscience, 7(4):468-476. He Z B, Yang F, Peng Y Q, et al.2013.Ultrasound-assisted vacuum drying of wood:effects on drying time and product quality.BioResources, 8(1):855-863. Kaufmann B, Christen P.2002.Recent extraction techniques for natural products:microwave-assisted extraction and pressurised solvent extraction.Phytochem Anal, 13(2):105-113. Kimitoshi S, Li J G, Hidehiro K, et al.2008.Ultrasonic dispersion of TiO2 nanoparticles in aqueous suspension.Journal of the American Ceramic Society, 91(8):2481-2487. Liu Y, Hu J H, Gao J M, et al.2015.Wood veneer dyeing enhancement by ultrasonic-assisted treatment. Bioresources, 10(1):1198-1212. Mozhgan H, Rao K V, Ahmadipour M, et al.2013.Formation nano size Ag-TiO2 composite by sol-gel method and investigation of band gap decline.Advanced Science, 5:1-5. Soria A C, Villamiel M.2010.Effect of ultrasound on the technological properties and bioactivity of food:a review.Trends in Food Science & Technology, 21(7):323-331. Sun Q F, Yu H P, Liu Y X, et al.2010.Prolonging the combustion duration of wood by TiO2 coating synthesized using cosolvent-controlled hydrothermal method.J Mater Sci,45(24):6661-6667. Yeh M H, Chen P S, Yang Y C, et al.2017.Investigation of Ag-TiO2 interfacial reaction of highly stable Ag nanowire transparent conductive film with conformal TiO2 coating by atomic layer deposition.ACS Applied Materials & Interfaces,2:1-12. Zhang H J, Chen G H.2009.Potent antibacterial activities of Ag/TiO2 nanocomposite powders synthesized by a one-pot sol-gel method.Environmental Science & Technology,43(8):2905-2911. |