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化工新型材料  2019, Vol. 47 Issue (6): 13-17    
  综述与专论 本期目录 | 过刊浏览 | 高级检索 |
纳米纤维素的制备及在生物医药领域应用研究进展
刘文迎, 张静*, 郭亮亮, 刘泽员
郑州大学化工与能源学院,郑州450001
Research on preparation of nanocellulose and its application in biomedicine
Liu Wenying, Zhang Jing, Guo Liangliang, Liu Zeyuan
School of Chemical and Energy Engineering,Zhengzhou University,Zhengzhou 450001
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摘要 纳米纤维素是从天然纤维素中提取的一种独特且具有应用前景的天然材料,由于具有可再生性、良好的生物相容性、优异的机械性能以及可改变的表面化学性质,纳米纤维素已成为材料科学和生物医学工程等领域的研究热点。介绍了纳米纤维素的分类、制备以及在生物医药领域的潜在应用,并对其发展前景进行了展望。
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刘文迎
张静
郭亮亮
刘泽员
关键词:  纳米纤维素  制备  生物医药    
Abstract: Nanocellulose,a unique and promising natural material extracted from native cellulose,has become a hot spot for a range of applications relevant to the fields of material science and biomedical engineering,because of its renewable nature,excellent mechanical properties,good biocompatibility and tailorable surface chemistry.Preparation of nanocellulose,it's the potential applications in biomedicine and prospects for its future development were focused.
Key words:  nanocellulose    preparation    biomedicine
收稿日期:  2018-01-23                出版日期:  2019-06-20      发布日期:  2019-07-05      期的出版日期:  2019-06-20
基金资助: 河南省高等学校重点科研项目(17A530004)
通讯作者:  张静(1974-),女,副教授,主要从事生物化工与抗肿瘤药物研究工作。   
作者简介:  刘文迎(1990-),女,硕士,研究方向为功能材料与药物研制。
引用本文:    
刘文迎, 张静, 郭亮亮, 刘泽员. 纳米纤维素的制备及在生物医药领域应用研究进展[J]. 化工新型材料, 2019, 47(6): 13-17.
Liu Wenying, Zhang Jing, Guo Liangliang, Liu Zeyuan. Research on preparation of nanocellulose and its application in biomedicine. New Chemical Materials, 2019, 47(6): 13-17.
链接本文:  
http://www.hgxx.org/CN/  或          http://www.hgxx.org/CN/Y2019/V47/I6/13
[1] Klemm D,Heublein B,Fink H,et al.Cellulose:fascinating biopolymer and sustainable raw material[J].Angewandte Chemie International Edition,2005,44(22):3358-3393.
[2] Abitbol T,Rivkin A,Cao Y,et al.Nanocellulose,a tiny fiber with huge applications[J].Current Opinion in Biotechnology,2016,39:76-88.
[3] 张思航,付润芳,董立琴,等.纳米纤维素的制备及其复合材料的应用研究进展[J].中国造纸,2017,36(1):67-74.
[4] 乐志文,凌新龙.纳米纤维素的制备及应用研究进展[J].成都纺织高等专科学校学报,2016,33(4):105-113.
[5] 刘永政.基于纳米纤维素的功能材料制备及其应用[D].上海:东华大学,2017.
[6] Yu H,Qin Z,Liang B,et al.Facile extraction of thermally stable cellulose nanocrystals with a high yield of 93% through hydrochloric acid hydrolysis under hydrothermal conditions[J].Journal of Materials Chemistry A,2013,1(12):3938-3944.
[7] Feng X,Meng X,Zhao J,et al.Extraction and preparation of cellulose nanocrystals from dealginate kelp residue:structures and morphological characterization[J].Cellulose,2015,22(3):1763-1772.
[8] 陈珊珊,陶宏江,王亚静,等.葵花籽壳纳米纤维素制备工艺优化及其表征[J].农业工程学报,2015,31(15):302-308.
[9] Zhang P P,Tong D S,Lin C X,et al.Effects of acid treatments on bamboo cellulose nanocrystals[J].Asia-Pacific Journal of Chemical Engineering,2014,9(5):686-695.
[10] Alemdar A,Sain M.Isolation and characterization of nanofibers from agricultural residues:wheat straw and soy hulls[J].Bioresource Technology,2008,99(6):1664-1671.
[11] 谢文雅,于伟东,杜赵群.椰壳纳米纤维素晶须的氧化法制备[J].成都纺织高等专科学校学报,2016,33(2):21-25.
[12] Saito T,Kimura S,Nishiyama Y,et al.Cellulose nanofibers prepared by TEMPO-mediated oxidation of native cellulose[J].Biomacromolecules,2007,8(8):2485-2491.
[13] 张坤,刘金刚,胡云.羧乙基化法制备纳米纤化纤维素[J].纸和造纸,2015,34(2):30-33.
[14] 关晓辉,尹宗杰,鲁敏,等.细菌纤维素发酵条件的优化及结构分析[J].中国酿造,2010,29(10):68-71.
[15] 张名楠,刘海芳,韩亚丽,等.细菌纤维素的合成及表征[J].精细化工,2014,31(4):409-412;417.
[16] 吕鸿皓,黄莉,党苗苗,等.利用大豆糖蜜制备细菌纤维素[J].食品研究与开发,2015,36(20):165-169.
[17] Kolakovic R,Peltonen L,Laukkanen A,et al.Nanofibrillar cellulose films for controlled drug delivery[J].European Journal of Pharmaceutics & Biopharmaceutics,2012,82(2):308-315.
[18] 李德贵.纳米纤维素基药物缓释材料的制备及表征[D].广州:华南理工大学,2016.
[19] Zhao J,Lu C,Xu H,et al.Polyethylenimine-grafted cellulose nanofibril aerogels as versatile vehicles for drug delivery[J].ACS Applied Materials & Interfaces,2015,7(4):2607-2615.
[20] Alkhatib Y,Dewaldt M,Moritz S,et al.Controlled extended octenidine release from a bacterial nanocellulose/poloxamer hybrid system[J].European Journal of Pharmaceutics & Biopharmaceutics,2016,112:164-176.
[21] Gunathilake T M S U,Ching Y C,Cheng H C.Enhancement of curcumin bioavailability using nanocellulose reinforced chitosan hydrogel[J].Polymers,2017,9(2):64.
[22] Meneguin A B,Ferreira Cury B S,Dos Santos A M,et al.Resistant starch/pectin free-standing films reinforced with nanocellulose intended for colonic methotrexate release[J].Carbohydrate Polymers,2016,157:1013-1023.
[23] Mast B A,Schultz G S.Interactions of cytokines,growth factors,and proteases in acute and chronic wounds[J].Wound Repair & Regeneration,1996,4(4):411-420.
[24] Basu A,Hong J,Ferraz N.Hemocompatibility of Ca(2+)-crosslinked nanocellulose hydrogels:toward efficient management of hemostasis[J].Macromolecular Bioscience,2017:17(11):1700236.
[25] 刘长瑜.氧化纳米纤维素/海藻酸钠复合止血材料制备与性能研究[D].哈尔滨:哈尔滨工业大学,2016.
[26] Lu T,Li Q,Chen W,et al.Composite aerogels based on dialdehyde nanocellulose and collagen for potential applications as wound dressing and tissue engineering scaffold[J].Composites Science & Technology,2014,94(4):132-138.
[27] Hakkarainen T,Koivuniemi R,Kosonen M,et al.Nanofibrillar cellulose wound dressing in skin graft donor site treatment[J].Journal of Controlled Release,2016,244:292-301.
[28] Basu A,Lindh J,Ålander E,et al.On the use of ion-crosslinked nanocellulose hydrogels for wound healing solutions:physicochemical properties and application-oriented biocompatibility studies[J].Carbohydrate Polymers,2017,174:299-308.
[29] Wang X,Cheng F,Liu J,et al.Biocomposites of copper-containing mesoporous bioactive glass and nanofibrillated cellulose:biocompatibility and angiogenic promotion in chronic wound healing application[J].Acta Biomaterialia,2016,46:286-298.
[30] Fragal E H,Cellet T S,Fragal V H,et al.Hybrid materials for bone tissue engineering from biomimetic growth of hydroxiapatite on cellulose nanowhiskers[J].Carbohydrate Polymers,2016,152:734-746.
[31] Chen Q,Garcia R P,Munoz J,et al.Cellulose nanocrystals bioactive glass hybrid coating as bone substitutes by electrophoretic Co-deposition:in situ control of mineralization of bioactive glass and enhancement of osteoblastic performance[J].ACS Applied Materials & Interfaces,2015,7(44):24715-24725.
[32] Saska S,Barud H S,Gaspar A M M,et al.Bacterial cellulose-hydroxyapatite nanocomposites for bone regeneration[J].Int J Biomater,2011,2011(2011):175362.
[33] 陈小明.羟基磷灰石/纳米微晶纤维素/丝素蛋白复合支架的制备及其用于颅骨修复的研究[D].广州:南方医科大学,2016.
[34] Mahmoud K A,Male K B,Hrapovic S,et al.Cellulose nanocrystal/gold nanoparticle composite as a matrix for enzyme immobilization[J].ACS Applied Materials & Interfaces,2009,1(7):1383.
[35] Sampaio L M,Padrão J,Faria J,et al.Laccase immobilization on bacterial nanocellulose membranes:antimicrobial,kinetic and stability properties[J].Carbohydrate Polymers,2016,145:1-12.
[36] 黄宇美.磁性纤维素纳米晶固定化脂肪酶的制备、表征及其应用[D].广州:华南理工大学,2015.
[37] Esmaeili C,Abdi M M,Mathew A P,et al.Synergy effect of nanocrystalline cellulose for the biosensing detection of glucose[J].Sensors (Basel,Switzerland),2015,15(10):24681-24697.
[38] Fu J,Pang Z,Yang J,et al.Fabrication of polyaniline/carboxymethyl cellulose/cellulose nanofibrous mats and their biosensing application[J].Applied Surface Science,2015,349:35-42.
[39] Liu C,Dong J,Waterhouse G,et al.Electrochemical immunosensor with nanocellulose-Au composite assisted multiple signal amplification for detection of avian leukosis virus subgroup[J].Biosensors & Bioelectronics,2017,101:110-115.
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