随着能源问题和环境问题的突出,木质素作为一种可再生的生物质原料日益受到广泛关注.纳米木质素的开发可为木质素的利用提供一条新途径.文中综述了沉降法、机械法、自组装和逐步加成聚合方法制备纳米木质素的现状,以及纳米木质素在紫外防护和抗茵、纳米填料和生物质基载体方面的应用特性,以期为林木生物质资源的化学深加工及纳米木质素的开发提供借鉴.
参考文献
[1] | Yang, Weijun;Kenny, Jose M.;Puglia, Debora.Structure and properties of biodegradable wheat gluten bionanocomposites containing lignin nanoparticles[J].Industrial Crops and Products,2015:348-356. |
[2] | Ruben Vanholme;Kris Morreel;John Ralph;Wout Boerjan.Lignin engineering[J].Current opinion in plant biology,20083(3):278-285. |
[3] | Stephanie Laurichesse;Luc Averous.Chemical modification of lignins: Towards biobased polymers[J].Progress in Polymer Science,20147(7):1266-1290. |
[4] | Baurhoo B.;Ruiz-Feria CA;Zhao X..Purified lignin: nutritional and health impacts on farm animals - a review.[J].Animal Feed Science and Technology,20083/4(3/4):175-184. |
[5] | Ugartondo V;Mitjans M;Vinardell MP.Comparative antioxidant and cytotoxic effects of lignins from different sources[J].Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies,200814(14):6683-6687. |
[6] | Frangville, C.;Rutkevi?ius, M.;Richter, A.P.;Velev, O.D.;Stoyanov, S.D.;Paunov, V.N..Fabrication of environmentally biodegradable lignin nanoparticles[J].Chemphyschem: A European journal of chemical physics and physical chemistry,201218(18):4235-4243. |
[7] | 熊凯;金灿;刘贵锋;吴国民;陈健;孔振武.液相沉积法制备尺寸可控木质素纳米粒子及其表征[J].林产化学与工业,2015(5):85-92. |
[8] | Iulian Andrei Gilca;Roxana Elena Ghitescu;Adrian Catalin Puitel;Valentin I. Popa.Preparation of lignin nanoparticles by chemical modification[J].Iranian polymer journal,20145(5):355-363. |
[9] | Xiong, Wenlong;Yang, Dongjie;Zhong, Ruisheng;Li, Yuan;Zhou, Haifeng;Qiu, Xueqing.Preparation of lignin-based silica composite submicron particles from alkali lignin and sodium silicate in aqueous solution using a direct precipitation method[J].Industrial Crops and Products,2015:285-292. |
[10] | J. Prasad Rao;Kurt E.Geckeler.Polymer nanoparticles: Preparation techniques and size-control parameters[J].Progress in Polymer Science,20117(7):887-913. |
[11] | Gilca, Iulian Andrei;Pupa, Valentin I.;Crestini, Claudia.Obtaining lignin nanoparticles by sonication[J].Ultrasonics sonochemistry,2015:369-375. |
[12] | Yong Qian;Yonghong Deng;Xueqing Qiu.Formation of uniform colloidal spheres from lignin, a renewable resource recovered from pulping spent liquor[J].Green chemistry,20144(4):2156-2163. |
[13] | Yong Qian;Yonghong Deng;Hao Li.Reaction-Free Lignin Whitening via a Self-Assembly of Acetylated Lignin[J].Industrial & Engineering Chemistry Research,201424(24):10024-10028. |
[14] | 邱学青;李浩;邓永红;钱勇;易聪华.碱木质素的乙酰化及其球形胶束的制备[J].高分子学报,2014(11):1458-1464. |
[15] | Amir Abbas Rafati;Ahmad Reza Afraz Borujeni;Mojgan Najafi.Ultrasonic/surfactant assisted of CdS nano hollow sphere synthesis and characterization[J].Materials Characterization,20111(1):94-98. |
[16] | IULIAN-ANDREI GiLCA;ADINA-MIRELA CAPRARU;SILVIA GRAMA.AGENTS FOR WOOD BIOPROTECTION BASED ON NATURAL AROMATIC COMPOUNDS AND THEIR COMPLEXES WITH COPPER AND ZINC[J].Cellulose Chemistry and Technology: International Journal for Physics, Chemistry and Technology of Cellulose and Lignin,20113/4(3/4):227-231. |
[17] | VALENTIN I. POPA;ADINA-MIRELA CAPRARU;SILVIA GRAMA.NANOPARTICLES BASED ON MODIFIED LIGNINS WITH BIOCIDE PROPERTIES[J].Cellulose Chemistry and Technology: International Journal for Physics, Chemistry and Technology of Cellulose and Lignin,20113/4(3/4):221-226. |
[18] | B. Del Saz-Orozco;M. Oliet;M.V. Alonso;E. Rojo;F. Rodriguez.Formulation optimization of unreinforced and lignin nanoparticle-reinforced phenolic foams using an analysis of variance approach[J].Composites science and technology,20126(6):667-674. |
[19] | Yang, W.;Fortunati, E.;Dominici, F.;Kenny, J. M.;Puglia, D..Effect of processing conditions and lignin content on thermal, mechanical and degradative behavior of lignin nanoparticles/polylactic (acid) bionanocomposites prepared by melt extrusion and solvent casting[J].European Polymer Journal,2015:126-139. |
[20] | Qian, Yong;Zhang, Qi;Qiu, Xueqing;Zhu, Shiping.CO2-responsive diethylaminoethyl-modified lignin nanoparticles and their application as surfactants for CO2/N-2-switchable Pickering emulsions[J].Green chemistry,201412(12):4963-4968. |
[21] | Ronit Justo-Hanani;Tamar Dayan.The role of the state in regulatory policy for nanomaterials risk:Analyzing the expansion of state-centric rulemaking in EU and USchemicals policies[J].Research Policy: A Journal Devoted to Research Policy, Research Management and Planning,20141(1):169-178. |
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