潘颖,朱平
PAN Ying, ZHU Ping (State Keg Lab of New Fibers and Modern Textile Techndogy

• 1:青岛大学"纤维新材料及现代纺织"国家重点实验室培育基地
• 2:青岛大学"纤维新材料及现代纺织"国家重点实验室培育基地 山东青岛266071
• 3:山东青岛266071

摘要(Abstract)：

细菌纤维素是由木醋杆菌生产的一类纤维素,具有许多独特的性能,如机械强度高、吸水能力好、结晶度高、具有超细高纯的纤维素网状结构等,是一种具有广泛商业用途的新型生物材料,目前已在食品、医药、化工、造纸、高级音响设备和纺织等领域得到应用,更多的应用领域正在研究开发中。
Bacterial cellulose produced by acetobacter xylinum displayed unique properties including high mechanical strength, high water holding capacity, high crystallinity and an ultra-fine highly pure fibre network structure. It was expected to be a new commodity biomaterial with diverse applications. Now it found application in the fields of food, medicine, paper making, textile and so on. A wide range of specialty applications were under exploration.

关键词(KeyWords)： 细菌纤维素;生物合成;理化特性;应用
bacterial cellulose, biosynthesis, physicochemical property, application

Abstract:

Keywords:

基金项目(Foundation):

作者(Author): 潘颖,朱平
PAN Ying, ZHU Ping (State Keg Lab of New Fibers and Modern Textile Techndogy

参考文献(References)：

• [1]李辉芹.微生物生产的纤维素-细菌纤维素[J].产业用纺织品,2005,23(2):42-44.
• [2]施庆珊.细菌纤维素的研究进展[J].生物学杂志,2004,21(5):12-15.
• [3]马承铸.生物有机纳米材料-细菌纤维素[J].精细与专用化学品,2001,(18):14-17.
• [4]朱明阳.细菌纤维素菌株选育及细菌纤维素性质研究[D]:[硕士论文].南京:南京理工大学,2004.
• [5]Masnda K,Adachi M Solid-state13C and1H spin diffusion NMR anal-yses of the microfibril structure for bacterial cellulose[J].Solid State Nu-clear Magnetic Resonance,2003,23(4):198-212.
• [6]Strobin G,Wlochowica A.GPC studies on bacterial cellulose[J].Inter-national Journal of Polymeric Materials,2004,53(10):889-900.
• [7]孙东平,徐军.醋酸杆菌发酵生产细菌纤维素的研究进展[J].生物学杂志,2004,21(1):12-15.
• [8]Wlochowica A,Kwiatkowski R.X-ray studies of bacterial cellulose nanostructure.Magic World of Texile,Book of Proceedings of the Inter-national Textlie,Clothing&Design Conference,1st,2002,141-146.
• [9]Vinita Dubey.Pervaparation of binary water-ethanol mixtures through bacterial cellulose membrane[J].Separation and Purification Technology,2002,27:163-171.
• [10]Kokesh Kumar Pandey.Studies on pervaparative characteritics of bacterial cellulose membrane[J].Separation and Purification Technology,2005,42:213-218.
• [11]杨光,近藤哲男.细菌纤维素:一种环境友好的纳米材料[J].科学,2006,58(2):14-17
• [12]Heiko Winter,Abdellatif Barakat.Priparation of axabinoxylan and its sorption on bacterial cellulose during cultivation[J].Macromol Symp,2006,232:74-84.
• [13]Akihiro Shirai,Nobuo Sakairi.Preparation of a novel(1-4)-β-D-glycan by acetobacter xylinum--a propoed mechanism for incorporation of a N-acetylglucosamine reidue into bacterial cellulose[J].Carbohydrate Polymers,1997,32:223-227.
• [14]S Keshk,S Fujinara.Physical properties of bacterial cellulose sheets produced in preence of lignosulfonate[J].Enzyme and Microbial Technol-ogy,DOI:10.1016/j.enzmictec.2005.10.031.
• [15]Danuta C.Multifunctional bacterial cellulose/chitosan composite ma-terial for medical applications[J].Fibres&Textiles in Eastern Europe,2004,12(4):69-72.
• [16]Marit Seifer,Stephanie Hesse.Controlling the water content of never dried and reswollen bacterial cellulose by the addition of water solluble polymers to the culture medium[J].Journal of Polymer Science:Part A:Polymer Chemistry,2004,42:463-470.
• [17]Baranov A I,Anisimova V N.Dielectric properties and dipole glass transition in cellulose acetobacter xylinum[J].Ferroelectrics,2003,286:141-151.
• [18]Tamai N,Tatsumi D.Diversity of cellulose molecules observed in the solution[J].Cellulose Communications,2002,9(3):127-131.
• [19]B Lazkiewicz.Solubility of bacterial cellulose and Its structural prop-erties[J].Journal of Applied Polymer Science,1998,67:1871-1876.
• [20]马承铸,顾真荣.细菌纤维素生物理化特性和商业用途[J].上海农业学报,2001,17(4):93-98
• [21]范丽霞,王锡彬.细菌纤维素生物理化特性及其应用[J].海南医学院学报,2004,10(4):279-281
• [22]吴清杭.Acetobacter xylinum NUST4.2产纤维素的研究[D].南京:南京理工大学,2005.
• [23]Fontana JD,Souza AM.Acetobacter cellulose pellicle as a temporaryskin substitute[J].Appl Biochem Biotechnol,1990,24-25:253-264.
• [24]Gisela Helenius,Henrile Backdahl.In vivo biocompatibility of bacte-rial cellulose[J].www.interscience.wiley.com,DOI:10.1002/jbma.30570.
• [25]Paul A Charpentier,Anne Maguire.Surface modification of polyester to produce a bacterial cellulose-based vascular prosthetic device[J].Ap-plied Surface Science,DOI:10.1016/j.apsnsc.2005.09.064.
• [26]Svensson A,Nicklasson E.Bacterial cellulose as a potential scaffold for tissue engineering of cartilage[J].Biomaterials,2005,26(4):419-431.
• [27]Atsushi Nakayama,Akira Kakugo.High mechianical strength double-network hydrogel with bacterial cellulose[J].Advanced Functional Materi-al,2004,14(16).
• [28]L Hong,Y L Wang.Hydroxyapatite/bacterial cellulose composites yn-thesized via a biomimetic route[J].Materials Letters,2006,60:1710-1713.
• [29]Y Z Wan,L Hong.Synthesis and characterization of hydroxyapatite-bacterial cellulose nanocomposites[J].Composites Science and Technolo-gy,2006,66:1825-1832.
• [30]Yong-Jin Choi,Yeonghee Ahn.Preparation and characterization of acrylic acid-treated bacterial cellulose cation-exchange membrane[J].Journal of Chemical Technology and Biotechnology,2004,79:79-84.
• [31]Vinita Dubey,Lokesh Kumar Pandey.Pervaporative separation of ethanol/water azeotrope using a novel chitosan-impregnated bacterial cellulose membrane and chitosan-poly(vinyl alcohol)blends[J].Journal of Membrane Science,2005,251:131-136.
• [32]Barbara R Evans,Hugh M.O'Naill,et al.Metallization of bacterial cellulose for electrical and electronic device manufacture[P].US,6,986,9632006-09-02.
• [33]Seok Ho Yoon,Hyoung-Joon Jin.Electrically conductive bacterial cellulose by incorporation of carbon nanotubes[J].Biomacromolecules,2006,7:1280-1284.
• [34]Wolfgang Gindl,Jozef Keckes.Tensile properties of cellulose acetate butyrate composites reinforced with bacterial cellulose[J].Composites Sci-ence and Technology,2004,64:2407-2413.
• [35]Owen M Astley,Elisabeth Chanliaud.Tensile deformation of bacterial cellulose composites[J].International Journal of Biological Macro-molecules,2003,32:28-35.
• [36]Nakagaito A N,Iwamoto S.Bacterial cellulose:the ultimate nano-scale cellulose morphology for the production of high-strength composites[J].Applied Physics A-Materials Science&Processing,2004,DOI:10.1007/s00339-004-2932-3.
• [37宋]海农,张远秋.细菌纤维素在造纸工业中的应用和展望[J].广西大学学报自然科学版,2004,29(1):73-76.
• [38]Takaaki Naritomi,Tohru Kouda.Effect of ethanol on bacterial cellu-lose production from fructose in continous culture[J].Journal of Fermenta-tion and Bioengineering,1998,85(6):598-603.
• [39]Takaaki Naritomi,Tohru Kouda.Effect of lactate on bacterial cellu-lose production from fructose in continous culture[J].Journal of Fermenta-tion and Bioengineering,1998,85(1):89-95.
• [40]Onodera M,Harashima I.Silicone rubber membrane bioreactors for bacterial cellulose production[J].Biotechnology and Bioprocess Engineer-ing,2002,7(5):289-294.