POLYMERS AND POLYMER MATRIX COMPOSITES |
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An Overview on Functionalization Modification of Transparent Wood |
XIA Rongqi, LIU Yi, GUO Hongwu
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Key Laboratory of Wood Science and Technology, College of Materials Science and Technology, Beijing Forestry University, Beijing 100083, China |
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Abstract Transparent wood is a new biomass material with transparent optical properties, excellent mechanical properties and biodegradability, which is prepared by impregnating transparent polymer material with refractive index matching with cellulose into delignification or lignin retaining modified wood. Transparent wood not only solves the optical opacity of ordinary wood, but also alleviates the current energy crisis and environmental pollution. In recent years, transparent wood has been widely concerned at home and abroad. Researchers are committed to functional modification of transparent wood and achieved remarkable achievements, to improve the light transmittance, fog, strength, magnetism, luminescence, heat insulation and other properties of transparent wood. In this paper, the research progress of functional modification of transparent wood is summarized in depth. The optical principle and preparation methods are expounded and the functionalization modification methods of the transparent wood are summarized. At the same time, its applications in construction materials, magnetic materials and photoelectric materials are introduced as its development trend is prospected. Finally, the difficult problems of functionalization modification urgently to be solved are put forward.
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Published: 12 March 2021
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Fund:Central University Funds for Basic Scientific Research (2018ZY12), Natural Science Foundation of Beijing, China (6184045). |
About author:: Rongqi Xia received her B.E. degree from Fujian Agricultural and Forestry University in 2018. She is currently pursuing her master’s degree at the College of Materials Science and Technology, Beijing Forestry University under the supervision of Prof. Hongwu Guo and Lecturer Yi Liu. Her research has focused on wood compo-site. Yi Liu received his B.E. degree in Northeast Forestry University in 2009 and received his Ph.D. degree at the College of Materials Science and Technology, Beijing Forestry University in 2015. His research interests are biomass composite materials. |
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1 Fink S. Holzforschung,1992,5(46),403. 2 Li Y, Fu Q, Yang X, et al. Philosophical Transactions of the Royal Society A,2018,376(2112),20170182. 3 Vay O, Borst K D, Hansmann C, et al. Wood Science and Technology,2015,49(3),577. 4 Wang Y, Sun G, Dai J, et al. Advanced Materials,2017,29(2),1604257. 5 Cabane E, Keplinger T, Künniger T, et al. Scientific Reports,2016,6,31287. 6 Li Y, Fu Q, Rojas R, et al. Chemsuschem,2017,10(17),3445. 7 Li T, Zhu M, Yang Z, et al. Advanced Energy Materials,2016,6(22),1601122. 8 Vasileva E, Li Y, Sychugov I, et al. Advanced Optical Materials,2017,5(10),1700057. 9 Moon R J, Martini A, Nairn J, et al. Chemical Society Reviews,2011,40(7),3941. 10 Zhu H, Fang Z, Preston C, et al. Energy & Environmental Science,2013,7(1),269. 11 Mitsui K, Murata A, Tolvaj L. Holz Als Roh-Und Werkstoff,2004,62(3),164. 12 Koddenberg T. Journal of Cleaner Production,2016,110,193. 13 Mckendry P. Bioresour Technol,2002,83(1),37. 14 Jeremic D, Goacher R E, Yan R, et al. Biotechnology for Biofuels,2014,7(1),496. 15 Agarwal U P. Planta,2006,224(5),1141. 16 Lin Y R, Zhong X J. China Pulp & Paper,1990,9(2),45(in Chinese). 林耀瑞,钟香驹.中国造纸,1990,9(2),45. 17 Vanholme R, Morreel K, Ralph J, et al. Current Opinion in Plant Biology,2008,11(3),278. 18 Fang G Z. China Pulp & Paper,2002,21(6),79(in Chinese). 方桂珍.中国造纸,2002,21(6),79. 19 Müller U, Rätzsch M, Schwanninger M, et al. Journal of Photochemistry and Photobiology B Biology,2003,69(2),97. 20 Burgert I, Cabane E, Zollfrank C, et al. International Materials Reviews,2015,60(8),431. 21 Eichhorn S J, Dufresne A, Aranguren M, et al. Journal of Materials Science,2010,45(1),1. 22 Clauß S, Joscak M, Niemz P. European Journal of Wood & Wood Pro-ducts,2011,69(1),101. 23 Zauer M, Hempel S, Pfriem A, et al. Wood Science and Technology,2014,48(6),1229. 24 Ahmed S A, Su K C, Miller R B, et al. Journal of Wood Science,2011,57(3),179. 25 Emaminasab M, Tarmian A, Oladi R, et al. Wood Science and Technology,2017,51(2),261. 26 Zhu M, Song J, Li T, et al. Advanced materials,2016,28(26),5181. 27 Zhu M, Tian L, Davis C S, et al. Nano Energy,2016,26,332. 28 Li Y, Fu Q, Yu S, et al. Biomacromolecules,2016,17(4),1358. 29 Li Y, Yu S, Veinot J G C, et al. Advanced Optical Materials,2017,5(1),1600834. 30 Gan W, Gao L, Sun Q, et al. Applied Surface Science,2015,332,565. 31 Qin J K, Bai T, Shao Y L, et al. Journal of Beijing Forestry University,2018,40(7),113(in Chinese). 秦建鲲,白天,邵亚丽,等.北京林业大学学报,2018,40(7),113. 32 Jia C, Li T, Chen C, et al. Nano Energy,2017,36,366. 33 Gan W, Gao L, Xiao S, et al. Journal of Materials Science,2017,52(6),3321. 34 Qiu Z, Xiao Z, Gao L, et al. Composites Science and Technology,2019,172,43. 35 Li Y Y, Yang X, Fu Q L, et al. Journal of Materials Chemistry A,2018,6(3),1094. 36 Tan G G, Lu W Q, Li Y F, et al. Guangdong Architecture Civil Enginee-ring,2014,21(12),32(in Chinese). 谭国辉,卢维勤,李云峰,等.广东土木与建筑,2014,21(12),32. 37 Ghisi E, Tinker J A. Building and Environment,2005,40(1),51. 38 Jiang F, Li T, Li Y, et al. Advanced Materials,2017,30(1),1703453. 39 Yu Z Y, Yao Y J, Yao J N, et al. Journal of Materials Chemistry A,2017,5(13),6019. 40 Wang X, Zhan T, Liu Y, et al. ChemSusChem.2018,11(23),4086. 41 Qin J, Li X, Shao Y, et al. Vacuum,2018,158,158. 42 Pang Y L, Lim S, Ong H C, et al. Ceramics International,2015,42(1),9. 43 Li J, Gan W T, Gao L K, et al. C.N. patent, CN106313221,2017(in Chinese). 李坚,甘文涛,高丽坤,等.中国专利,CN106313221,2017. 44 Gan W T, Xiao S L, Gao L K, et al. ACS Sustainable Chemistry & Engineering,2017,5,3855. 45 Chen C, Zhang Y, Li Y, et al. Energy & Environmental Science,2017,10(2),538. 46 Wei Z, Zhang X, Lu C, et al. Journal of Physical Chemistry C,2012,116(16),9227. 47 Fujisaki Y, Koga H, Nakajima Y, et al. Advanced Functional Materials,2014,24(12),1656. 48 Chiba Y, Islam A, Watanabe Y, et al. Japanese Journal of Applied Phy-sics,2006,45(25),638. 49 Fang Z, Zhu H, Yuan Y, et al. Nano Letters,2014,14(2),765. 50 Lang A W, Li Y, Keersmaecker M D, et al. Chemsuschem,2018,11(5),854. |
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