OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

复合材料学报 2014

丝胶/Poly(NIPAm-LMSH)纳米复合凝胶的层状形态和溶胀行为

, PP. 59-65

张青松,薛蕊,李学伟,陈莉,韩美玲

Keywords: 纳米复合凝胶,丝胶,异丙基丙烯酰胺,孔洞形态,溶胀度

Full-Text Cite this paper Add to My Lib

Abstract:

采用半互穿网络技术和原位自由基聚合将生物相容性和吸水性优良的丝胶蛋白（SS）引入聚异丙基丙烯酰胺-硅酸镁锂（Poly（NIPAm-LMSH））纳米复合凝胶网络，制得高溶胀度和快速响应的SS/Poly（NIPAm-LMSH）纳米复合凝胶，研究了丝胶含量对纳米复合凝胶的孔洞形态、溶胀动力学、结晶结构、相容性和稳定性的影响。结果表明：冷冻干燥后的SS/Poly（NIPAm-LMSH）水凝胶呈多孔结构，孔洞尺寸为20~30μm，孔壁薄，为1~4μm，且随丝胶含量增加而由多面体结构变为狭长形的层状结构。相比于溶胀平衡的纯纳米复合凝胶，丝胶的引入显著提高了其溶胀度，溶胀初期属于Non-Fickian扩散，37℃10min内即可失去90%的水。丝胶在凝胶中具有良好的相容性，SS/Poly（NIPAm-LMSH）纳米复合凝胶的Tg为141~144℃，最大热分解温度为365~373℃，质量残留率随丝胶含量的增加而增大。

References

[1]	Kundu S C, Dash B C, Dash R, et al. Natural protective glue protein, sericin bioengineered by silkworms: potential for biomedical and biotechnological applications[J]. Progress in Polymer Science, 2008, 33(10): 998-1002.
[2]	Vepari C, Kaplan D L. Silk as a biomaterials[J]. Progress in Polymer Science, 2007, 32(8/9): 991-1007.
[3]	Hardy J G, Scheibel T R.Composite materials based on silk proteins[J]. Progress in Polymer Science, 2010, 35(9): 1093-1115.
[4]	李庆春, 邹君, 董显新.丝胶蛋白基水凝胶膜的合成及性能研究[J].轻纺工业与技术, 2011, 40(2): 5-7. Li Qingchun, Zou Jun, Dong Xianxin. Preparation and properties of hydrogel membrane based on silk proteins[J]. Light and Textile Industry and Technology, 2011, 40(2): 5-7.
[5]	许俊, 江学良, 孙康.聚乙烯醇/丝胶共混凝胶薄膜的制备与表征[J].功能高分子学报, 2007, 19-20(4): 369-373. Xu Jun, Jiang Xueliang, Sun Kang. Preparation and characterization of PVA/Sericin hydrogel membranes[J]. Journal of Functional Polymers, 2007, 19-20(4): 369-373.
[6]	吴雯, 王东升.温敏性丝胶蛋白/聚(N-异丙基丙烯酰胺)互穿网络水凝胶的结构与形态[J].高分子材料科学与工程, 2010, 26(9): 92-95. Wu Wen, Wang Dongsheng. Structure and morphology of temperature-sensitive silk sericin/poly(N-isopropyl-acrylamide) interpenetrating network hydrogels[J]. Polymer Materials Science and Engineering, 2010, 26(9): 92-95.
[7]	李学伟, 张青松, 陈莉.丝胶基半互穿温敏凝胶的合成及其溶胀行为的研究[J].化学学报, 2010, 68(18): 1915-1920. Li Xuewei, Zhang Qingsong, Chen Li. Preparation of semi-IPNs hydrogels based on silk sericin and their swelling behavior[J]. Acta Chimica Sinica, 2010, 68(18): 1915-1920.
[8]	张青松, 李学伟, 董盼盼, 等. 丝胶含量对温敏凝胶形态和热性能的影响[J]. 复合材料学报, 2012, 29(3): 105-110. Zhang Qingsong, Li Xuewei, Dong Panpan, et al. Effect of silk sericin content on the morphology and thermal stability of temperature-sensitive hydrogels[J]. Acta Materiae Compositae Sinica, 2012, 29(3): 105-110.
[9]	Li X W, Zhang Q S, Chen L, et al. Cell growth and desorption on the surface of temperature-sensitive semi-IPNs hydrogels based on silk sericin[J]. Journal of Wuhan University of Technology: Materials Science Edition, 2012, 5: 907-910.
[10]	Pelton R. Temperature-sensitive aqueous microgels[J]. Advances in Colloid and Interface Science, 2000, 85(1): 1-33.
[11]	Haraguchi K, Li H J, Song L Y, et al. Tunable optical and swelling/deswelling properties associated with control of the coil-to-globule transition of poly(N-isopropylacrylamide) in polymer-clay nanocomposite gels[J]. Macromolecules, 2007, 40(19): 6973-6980.
[12]	Xiong L J, Hu X B, Liu X X, et al. Network chain density and relaxation of in situ synthesized polyacrylamide/hectorite clay nanocomposite hydrogels with ultrahigh tensibility[J]. Polymer, 2008, 49(23): 5064-5071.
[13]	Zhang Q S, Li X W, Zhao Y P, et al. Preparation and performance of nanocomposite hydrogels based on different clay[J]. Applied Clay Science, 2009, 46(4), 346-350.
[14]	Haraguchi K, Murata K. Spontaneous formation of characteristic layered morphologies in porous nanocomposites prepared from nanocomposite hydrogels[J]. Chemistry of Materials, 2005, 17(5): 931-934.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133