[1] 陈启杰,康美存,郑学铭,等.纳米纤维素在纸基功能材料中的应用进展[J].林产化学与工业,2018,38(4):1-8.
[2] 胡寅,莫建初.国内外纤维素酶研究概况[J].城市害虫防治,2003(2):19-24.
[3] Mohite B V,Patil S V.A novel biomaterial:bacterial cellulose and its new era applications[J].Biotechnology and Applied Biochemistry,2014,61(2):101-110.
[4] Brown A J.The chemical action of pure cultivation of Bacterium aceti[J].J Chem Soc,1886,49:432-439.
[5] 夏文,李政,徐银莉,等.发酵原料对细菌纤维素产量的影响研究进展[J].食品工业科技,2017,38(2):321-326.
[6] Rajwade J M,Paknikar K M,Kumbhar J V.Applications of bacterial cellulose and its composites in biomedicine[J].Applied Microbiology and Biotechnology,2015,99(6):2491-2511.
[7] Retegi A,Gabilondo N,Pena C,et al.Bacterial cellulose films with controlled microstructure-mechanical property relationships[J].Cellulose,2010,17(3):661-669.
[8] 吴清林,梅长彤,韩景泉,等.纳米纤维素制备技术及产业化现状[J].林业工程学报,2018,3(1):1-9.
[9] 古今,章伟伟,关丽涛,等.纤维素纳米材料技术标准体系研究[J].华南农业大学学报,2018,39(4):120-124.
[10] 夏文,李政,华嘉川,等.细菌纤维素复合材料的应用进展[J].化工新型材料,2016,44(11):20-22.
[11] Bethke K,Palantöken S,Andrei V,et al.Functionalized cellulose for water purification,antimicrobial applications,and sensors[J].Advanced Functional Materials,2018,28(23):1800409.
[12] 翁媛媛.惰性吸附载体固态发酵细菌纤维素的研究[J].纤维素科学与技术,2010,18(4):1-7.
[13] Huang Y,Zhu C,Yang J,et al.Recent advances in bacterial cellulose[J].Cellulose,2014,21(1):1-30.
[14] Roman M,Haring A P,Bertucio T J.The growing merits and dwindling limitations of bacterial cellulose-based tissue engineering scaffolds[J].Current Opinion in Chemical Engineering,2019,24:98-106.
[15] 陈根强.优质细菌纳米纤维素的规模化高效生产关键技术研究[D].上海:东华大学,2018.
[16] Hornung M,Ludwig M,Schmauder H P.Optimizing the production of bacterial cellulose in surface culture:a novel aerosol bioreactor working on a fed batch principle (Part 3)[J].Engineering in Life Sciences,2007,7(1):35-41.
[17] Kralisch D,Hessler N,Klemm D,et al.White biotechnology for cellulose manufacturing—the HoLiR concept[J].Biotechnology and Bioengineering,2010,105(4):740-747.
[18] 许云华,马波,张衡,等.气升式发酵产细菌纤维素的中试实验研究[J].食品研究与开发,2016,37(19):71-76.
[19] Chen G,Wu G,Chen L,et al.Comparison of productivity and quality of bacterial nanocellulose synthesized using culture media based on seven sugars from biomass[J].Microbial Biotechnology,2019,12(4):677-687.
[20] 马春华,辜文彦,王依静.以甘油为碳源生产细菌纤维素条件优化[J].武夷学院学报,2018,37(12):37-40.
[21] Malladi R,Nagalakshmaiah M,Robert M,et al.Importance of agriculture and industrial waste in the field of nano cellulose and its recent industrial developments:a review[J].ACS Sustainable Chemistry & Engineering,2018,6(3):2807-2828.
[22] 刘文迎,张静,郭亮亮,等.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.
[23] Keshk S M A S.Bacterial cellulose production and its industrial applications[J].Journal of Bioprocessing & Biotechniques,2014,4(2):1-10.
[24] Donini I A N,De Salvi D T B,Fukumoto F K,et al.Biosynthesis and recent advances in production of bacterial cellulose[J].Eclética Química,2010,35(4):165-178.
[25] Campano C,Merayo N,Balea A,et al.Mechanical and chemical dispersion of nanocelluloses to improve their reinforcing effect on recycled paper[J].Cellulose,2018,25(1):269-280.
[26] Urbina L,Corcuera M Á,Eceiza A,et al.Stiff all-bacterial cellulose nanopaper with enhanced mechanical and barrier properties[J].Materials Letters,2019,246:67-70.
[27] Suwannapinunt N,Burakorn J,Thaenthanee S.Effect of culture conditions on bacterial cellulose (BC) production from AcetobacterxylinumTISTR976 and physical properties of BC parchment paper[J].Suranaree Journal of Science & Technology,2007,14(4):357-365.
[28] Azeredo H M C,Rosa M F,Mattoso L H C.Nanocellulose in bio-based food packaging applications[J].Industrial Crops and Products,2017,97:664-671.
[29] Fillat A,Martínez J,Valls C,et al.Bacterial cellulose for increasing barrier properties of paper products[J].Cellulose,2018,25(10):6093-6105.
[30] 马丽艳,马晓军.纳米材料改性纸张包装性能的研究进展[J].包装工程,2018(13):1-7.
[31] 陈满儒,张文明,张彬.细菌纤维素对印刷纸张表面效率的影响[J].轻工科技,2009,25(4):30-31.
[32] 细菌纤维素与壳聚糖在纸质文物修复加固与防霉保护中的应用研究[D].沈阳:辽宁大学,2017.
[33] 张铭.细菌纤维素在文献保护中的应用[J].遗产与保护研究,2018,3(10):68-70.
[34] Campano C,Merayo N,Negro C,et al.Low-fibrillated bacterial cellulose nanofibers as a sustainable additive to enhance recycled paper quality[J].International Journal of Biological Macromolecules,2018,114:1077-1083.
[35] Tabarsa T,Sheykhnazari S,Ashori A,et al.Preparation and characterization of reinforced papers using nano bacterial cellulose[J].International Journal of Biological Macromolecules,2017,101:334-340.
[36] Xiang Z,Jin X,Liu Q,et al.The reinforcement mechanism of bacterial cellulose on paper made from woody and non-woody fiber sources[J].Cellulose,2017,24(11):5147-5156.
[37] Xiang Z,Liu Q,Chen Y,et al.Effects of physical and chemical structures of bacterial cellulose on its enhancement to paper physical properties[J].Cellulose,2017,24(8):3513-3523.
[38] Basta A H,El-Saied H.Performance of improved bacterial cellulose application in the production of functional paper[J].Journal of Applied Microbiology,2009,107(6):2098-2107.
