Page 57 - 201901

P. 57

第 1 期任龙芳，等: 对羟基苯甲酸-壳寡糖改性水性聚氨酯 ·43·

waterborne polyurethane dispersions with different chain extenders Chemistry, 2015, 173: 501-513.
for potential application in waterborne ink[J]. Chemical Engineering [22] Qiang T T, Chen L, Zhang Q, et al. A sustainable and cleaner speedy
Journal, 2014, 253: 518-525. tanning system based on condensed tannins catalyzed by laccase[J].
[11] Shen L, Li Z, Jiang J, et al. Performance of hydroxypropyl silicone Journal of Cleaner Production, 2018, 197: 1117-1123.
modified waterborne polyurethane applied in cotton finishing[J]. [23] Božič M, Trancar J, Kokol V. Laccase-initiated reaction between
Polymer Materials Science & Engineering, 2013, 29(8): 135-140. phenolic acids and chitosan[J]. Reactive and Functional Polymers,
[12] Wang Z, Hou Z, Wang Y. Fluorinated waterborne shape memory 2013, 73(10): 1377-1383.
polyurethane urea for potential medical implant application[J]. [24] Božič M, Gorgieva S, Kokol V. Laccase-mediated functionalization
Journal of Applied Polymer Science, 2012, 127(1): 710-716. of chitosan by caffeic and gallic acids for modulating antioxidant and
[13] Yan Caibin (颜财彬), Fu Heqing (傅和青). Progress in modification antimicrobial properties[J]. Carbohydrate Polymer, 2012, 87(4):
of waterborne polyurethanes[J]. Chemical Progress (化工进展), 2388-2398.
2011, 30 (12): 2658-2664. [25] Xiong Jun (熊军), Sun Fang (孙芳), Du Hongguang (杜洪光).
[14] Pillai C K S, Paul W, Sharma C P. Chitin and chitosan polymers: Determination of isocyanate in polyurethane by acetone-di-n-butylamine[J].
Chemistry, solubility and fiber formation[J]. Progress in Polymer Analytical Laboratory (分析实验室), 2007, 26(8): 73-76.
Science, 2009, 34(7): 641-678. [26] GB/T1040—2006. Test method for tensile properties of plastic (塑料
[15] Shukla S K, Mishra A K, Arotiba O A, et al. Chitosan-based 拉伸性能试验方法)[S]. Beijing: China Standard Press (中国标准出
nanomaterials: A state-of-the-art review[J]. International Journal of 版社), 2006.
Biological Macromolecules, 2013, 59(4): 46-58. [27] Liu J, Lu J F, Kan J. Preparation, characterization and antioxidant
[16] Quemeneur F, Rinaudo M, Maret G, et al. Decoration of lipid activity of phenolic acids grafted carboxymethyl chitosan[J].
vesicles by polyelectrolytes: Mechanism and structure[J]. Soft International Journal of Biological Macromolecules, 2013, 62(2):
Matter, 2010, 6(18): 4471-4481. 85-93.
[17] Freier T, Hui S K, Kazazian K, et al. Controlling cell adhesion and [28] Shih M F, Shau M D, Hsieh C C, et al. Synthesis and evaluation of
degradation of chitosan films by N-acetylation[J]. Biomaterials, poly (hexamethylene-urethane) and PEG-poly (hexamethylene-
2005, 26(29): 5872-5878. urethane) and their cholesteryl oleyl carbonate composites for human
[18] Desmet T, Morent R, Geyter N D, et al. Nonthermal plasma blood biocompatibility[J]. Molecules, 2011, 16(10): 8181-8197.
technology as a versatile strategy for polymeric biomaterials surface [29] Hou Caiying (侯彩英), Zhou Yanming (周艳明), Han Aijie (韩艾洁).
modification: A review[J]. Biomacromolecules, 2009, 10(9): 2351- 2378. Study on the effect of hydrophilic group content on the water-resistant
[19] Kean T, Thanou M. Biodegradation, biodistribution and toxicity of performance of aqueous polyurethane[J]. Applied Chemical Industry
chitosan[J]. Advanced Drug Delivery Reviews, 2010, 62(1): 3-11. (应用化工), 2012, 41(12): 2131-2134.
[20] Saygun I, Bal V, Kızıltay A, et al. Proliferation and differentiation of [30] Krishnapriya K R, Kandaswamy M. A new chitosan biopolymer
mesenchymal stem cells in chitosan scaffolds loaded with derivative as metal-complexing agent: Synthesis, characterization,
nanocapsules containing bone morphogenetic proteins-4, and metal(II) ion adsorption studies[J]. Carbohydrate Research,
platelet-derived growth factor and insulin-like growth factor 1[J]. 2010, 345(14): 2013-2022.
Journal of Biomaterials & Tissue Engineering, 2014, 4(3): 181-188. [31] Yemul O S, Petrović Z S. Thermoplastic polyurethane elastomers
[21] Heleno S A, Martins A, Queiroz M J, et al. Bioactivity of phenolic from modified oleic acid[J]. Polymer International, 2014, 63(10):
acids: metabolites versus parent compounds: A review[J]. Food 1771-1776.

（上接第 36 页） tension, colloidal layer morphology, and trapped-particle motion[J].
Langmuir, 2003, 19(17): 6650-6656.
[15] Tan H, Wei J, Sun G, et al. Interconnected macroporous 3D scaffolds [24] Kesavan S, Alamelu B S. Effect of surfactant on the release of
templated from gelatin nanoparticle-stabilized high internal phase ciprofloxacin from gelatin microspheres[J]. Ars Pharmaceutica, 2010,
emulsions for biomedical applications[J]. Soft Matter, 2017, 51(2): 1-16.
13(21):3871-3878. [25] Chen Mingde ( 陈明德 ). The relationship between color and
[16] Yang Lan (杨岚), Wang Chunhua (王春华), Li Changpeng (李昌朋), molecular structure of organic reagents[J]. Analytical Chemistry (分
et al. Preparation of gelatin nanoparticles[J]. Fine Chemicals (精细化析化学), 1982, (8): 58-64.
工), 2017, 34(7): 774-779. [26] Ishida N, Inoue T, Minoru Miyahara A, et al. Nano bubbles on a
[17] Nan F, Wu J, Qi F, et al. Uniform chitosan-coated alginate particles hydrophobic surface in water observed by tapping-mode atomic force
as emulsifiers for preparation of stable Pickering emulsions with microscopy[J]. Langmuir, 2000, 16(16): 6377-6380.
stimulus dependence[J]. Colloids and Surfaces A: Physicochemical [27] Dickinson E. Stabilising emulsion-based colloidal structures with
and Engineering Aspects, 2014, 456: 246-252. mixed food ingredients[J]. Journal of The Science of Food &
[18] Morimoto K, Chono S, Kosai T, et al. Design of novel injectable Agriculture, 2013, 93(4): 710-721.
cationic microspheres based on aminated gelatin for prolonged [28] Binks B P, Lumsdon S O. Influence of particle wettability on the type
insulin action[J]. Journal of Pharmacy & Pharmacology, 2005, 57(7): and stability of surfactant-free emulsions[J]. Langmuir, 2000, 16(23):
839-844. 8622-8631.
[19] Azarmi S, Huang Y, Chen H, et al. Optimization of a two-step [29] Inoue M, Hashizaki K, Taguchi H. Emulsion preparation using
desolvation method for preparing gelatin nanoparticles and cell b-cyclodextrin and its derivatives acting as an emulsifier [J],
uptake studies in 143B osteosarcoma cancer cells[J]. Journal of Chemical & Pharmaceutical Bulletin, 2008, 56(9): 1335-1337.
Pharmacy & Pharmaceutical Sciences, 2006, 9(1): 124-132. [30] Williams M, Warren N J, Fielding L A, et al. Preparation of double
[20] Habeeb A F. Determination of free amino groups in proteins by emulsions using hybrid polymer/silica particles: New Pickering
trinitrobenzenesulfonic acid[J]. Analytical Biochemistry, 1966, 14(3): emulsifiers with adjustable surface wettability[J]. ACS Applied
328-336. Materials & Interfaces, 2014, 6(23): 20919-20927.
[21] Li B, Kennedy J F, Jiang Q G, et al. Quick dissolvable, edible and [31] Wei W, Wang L Y, Yuan L, et al. Preparation and application of novel
heatsealable blend films based on konjac glucomannan–gelatin[J]. microspheres possessing autofluorescent properties[J]. Advanced
Food Research International, 2006, 39(5): 544-549. Functional Materials, 2007, 17(16): 3153-3158.
[22] Binks B P, Horozov T S. Colloidal particles at liquid interfaces[M]. [32] Farrugia C A, Groves M J. Gelatin Behaviour in dilute aqueous
UK: Cambridge University Press, 2006: 60-61. solution: Designing a nanoparticulate formulation[J]. Journal of
[23] Vignati E, Piazza R, Lockhart T P. Pickering emulsions: Interfacial Pharmacy & Pharmacology, 1999, 51(6): 643-649.

52 53 54 55 56 57 58 59 60 61 62