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复合材料学报 2014

水溶液电纺制备葡萄籽多酚/明胶复合纤维

, PP. 1457-1466

邢祖阁,韩晓彤,斯绍雄,姚永毅,张其翼

Keywords: 水溶液,明胶,葡萄籽多酚,静电纺丝,复合纤维

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Abstract:

以水为溶剂,设计玻璃保温装置,采用静电纺丝技术制备了葡萄籽多酚/明胶复合纤维,系统探讨了浓度、温度、电压、流速等工艺条件以及葡萄籽多酚含量对葡萄籽多酚/明胶复合纤维形貌的影响.结果表明:当明胶浓度为24wt%时,随着温度和电压的增大,纤维平均直径先减小后增大,随葡萄籽多酚含量增大,纤维平均直径增大.通过加入适量葡萄籽多酚,可将纺丝速度从0.25mL/h提高到0.90mL/h,显著提高了工作效率;当葡萄籽多酚与明胶的质量比≥1:30时,纤维表面出现串珠;当葡萄籽多酚与明胶的质量比≥1:20时,可纺性变差.在明胶浓度为24wt%,葡萄籽多酚与明胶质量比为1:50,控制温度55℃,电压20kV,接收距离12cm,速率0.90mL/h的条件下,制备了纤维直径分布集中,平均直径为515nm的葡萄籽多酚/明胶复合纤维.明胶溶液中加入适量葡萄籽多酚不仅大大提高了纺丝效率,同时由于其良好的抗菌活性和对明胶的交联作用,使复合纤维膜可广泛应用于生物医药领域,特别是创伤敷料方面.

References

[1]	Tsukruk V V, Reneker D H, Beng H, et a1. Atomic force microscopy of ordered monolayer films from discotic liquid crystals [J]. Langmuir, 1993, 9(8): 2141-2144.
[2]	Khil M S, Cha D I, Kim H Y, et al. Electrospun nanofibrous polyurethane membrane as wound dressing [J]. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 2003, 67(2): 675-679.
[3]	张朝平, 胡林, 罗玉萍, 等. 明胶-铁氧化物纳米复合微粒的制备和性能 [J]. 复合材料学报, 2002, 19(2): 59-64. Zhang Chaoping, Hu Lin, Luo Yuping, et al. Preparation and properties of gelatin-iron oxides nano composite particles[J]. Acta Materiae Compositae Sinica, 2002, 19(2): 59-64.
[4]	Huang Z M, Zhang Y Z, Ramakrishna S, et al. Electrospinning and mechanical characterization of gelatin nanofibers [J]. Polymer, 2004, 45(15): 5361-5368.
[5]	Montero R B, Vial X, Nguyen D T, et al. bFGF-containing electrospun gelatin scaffolds with controlled nano-architectural features for directed angiogenesis [J]. Acta Biomaterialia, 2012, 8(5): 1778-1791.
[6]	Kia C S, Baeka D H, Gang K D, et al. Characterization of gelatin nanofiber prepared from gelatin–formic acid solution [J]. Polymer, 2005, 46(14): 5094-5102.
[7]	Gautam S, Dinda A K, Mishra N C. Fabrication and characterization of PCL/gelatin composite nanofibrous scaffold for tissue engineering application by electrospinning methods [J]. Materials Science and Engineering C, 2013, 33(3): 1228-1235.
[8]	Elliott D E, Davis F J, Mitchell G R, et al. Structure development in electrospun fibres of gelatin [J]. Journal of Physics: Conference Series, 2009, 183(1): 1742-6596.
[9]	Zhang S, Huang Y Q. Gelatin nanofibrous membrane fabricated by electrospinning of aqueous gelatin solution for guided tissue regeneration [J]. Journal of Biomedical Materials Research Part A, 2009, 30(3): 671-679.
[10]	Jayaprakasha G K, Selvi T, Sakariah K K. Antibacterial and antioxidant activities of grape(vitis vinifera) seed extracts [J]. Food Research International, 2003, 36(2): 117-122.
[11]	Bbress A, Wassermann O, Bruhn T, et al. A new procedure for the isolation of ANTI-HIV compounds (polysaccharides and polyphenols) from the marine alga focus vesiculosus [J]. Journal of Natural Products, 1993, 56(4): 478-488.
[12]	Kaur M, Agarwal C, Agarwal R. Anticancer and cancer chemopreventive potential of grape seed extract and other grape-based products [J]. The Journal of Nutrition, 2009, 139(9): 1806-1812.
[13]	Chen Z J, Wang L Q, Jiang H L. The effect of procyanidine crosslinking on the properties of the electrospun gelatin membranes [J]. Biofabrication, 2012, 4(3): 035007.
[14]	Joo Y L, Zhou H J. Apparatus and method for elevated temperature electrospinning: US Patent, 7, 326, 043. B2 [P]. 2008-02-05.
[15]	Demir M M, Yilgor I, Yilgor E, et al. Electrospinning of polyurethane fibers [J]. Polymer, 2002, 43(11): 3303-3309.
[16]	Bhardwaj N, Kundu S C. Electrospinning: a fascinating fiber fabrication technique [J]. Biotechnology Advances, 2010, 28(3): 325-347.
[17]	张倩, 穆畅道, 李丽英, 等. 原花青素诱导明胶水凝胶的形成与稳定 [J]. 皮革科学与程, 2008, 18(3): 20-25. Zhang Qian, Mu Changdao, Li Liying, et al. Formation and stability of gelatin hydrogel induced by procyanidins[J]. Leather Science and Engineering, 2008, 18(3): 20-25.
[18]	左璞晶, 黄雅钦, 张慎, 等. 以水为溶剂的电纺丝明胶纤维的制备及性能研究 [J]. 中国生物医学工程学报, 2008, 27(2): 313-316. Zuo Pujin, Huang Yaqin, Zhang Shen, et al. The fabrication of gelatin nanofiber with water as the solvent and the study of the fiber's performance [J]. Chinese Journal of Biomedica Engineering, 2008, 27(2): 313-316.
[19]	徐磊. 电液动力耦合脉冲式单股射流的喷射规律 [D]. 厦门: 厦门大学, 2010. Xu Lei. Jetting behaviors of pulsated single-jet based on electrohydrodynamics [D]. Xiamen: Xiamen University, 2010.
[20]	Pham Q P, Sharma U, Mikos A G. Electrospinning of polymeric nanofibers for tissue engineering applications: a review [J]. Tissue Engineering, 2006, 12(5): 1197-1211.
[21]	Wannatong L, Sirivat A, Supaphol P. Effects of solvents on electrospun polymeric fibers: preliminary study on polystyrene [J]. Polymer International, 2004, 53(11): 1851-1859.
[22]	Zhang C X, Yuan X Y, Wu L L, et al. Study on morphology of electrospun poly (vinyl alchol) mats [J].European Polymer, 2005, 41(3): 423-432.
[23]	Fomhals A. Process and apparatus for preparing artificial threads: US Patent, 1975504 [P]. 1934-10-02.
[24]	何创龙, 黄争鸣, 韩晓建, 等. 同轴射流技术制备纳米复合材料研究进展 [J]. 复合材料学报, 2005, 22(6): 1-8. He Chuanglong, Huang Zhengming, Han Xiaojian, et al. Recent development of the nonocomposites prepared by coaxial jet technology[J]. Acta Materiae Compositae Sinica, 2005, 22(6): 1-8.
[25]	Sill T J, Recun H A. Electrospinning: Applicatins in drug delivery and tissue engineering [J]. Biomaterials, 2008, 29(13): 1989-2006.

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