壳聚糖溶液在氢氧化钠稀溶液中可凝固成丝。
The chitosan filaments can be formed through extruding chitosan into the dilute sodium hydroxide solution.
与白藜芦醇壳聚糖溶液相比,白藜芦醇壳聚糖纳米粒显示了明显的缓释效应。
Compared with RES CS solution, RES-CS-NPs showed obvious sustained release property.
第三方面是在降解壳聚糖整理液中加入柠檬酸,将降解壳聚糖溶液和柠檬酸同浴整理到真丝织物上。
In the third side, citric acid was added to degraded chitosan finishing liquor and they were finished in the same bath on silk fabric.
采用流延的方式,将季铵化壳聚糖溶液与聚丙烯腈超滤膜进行复合,以混酐作交联剂,制备了一种荷正电复合纳滤膜。
A positively charged composite NF membrane was prepared by casting quaternized chitosan solution onto PAN ultrafiltration membrane and using mixed anhydride as cross-linking reagent.
然后利用壳聚糖溶液,通过浸—轧—焙的流程整理工艺分别对普通桑蚕丝纤维、微溶丝纤维及盐缩丝纤维进行了改性处理。
Secondly, the ordinary mulberry silk, slightly dissolved silk and calcium nitrate treated silk are modified by the chitosan solution and the treatment procedure of soaking-rolling-baking.
采用聚氨酯(PU)树脂溶液添加到适量的壳聚糖溶液中,同时调整粘度至所需涂布的粘度,经转移涂层工艺加工成PU涂层织物。
The coating agent was prepared by adding PU solution to the appropriate amount of chitosan solution while adjusting the viscosity and then applied to fabrics through transfer coating technique.
研究了不同浓度的壳聚糖-醋酸溶液表面施胶对纸的技术性能的影响。
The infection of different concentration chitosan- acetic acid solution surface sizing to the technical feature of paper was studied.
使用均质和复合壳聚糖膜对二氧六环-水和丙酮-水溶液的渗透汽化分离性能进行了研究。
Pervaporation separation of dioxane-water and acetone-water mixtures has been studied by use of chitosan homogeneous and composite membranes.
与壳聚糖膜相比,部分杂化膜不溶解于稀酸溶液。
Comparing with the membrane of chitosan, some of hybrid membranes could not be dissolved in thin acid solution.
方法采用琼脂稀释法分别测定壳聚糖和醋酸溶液的MIC值。
Methods to determine the antifungal MIC of chitosan and acetic acid by AGAR dilution method, respectively.
研究了不同脱乙酰度和不同分子量壳聚糖醋酸溶液的凝血作用。
The effect of chitosan with different molecular weight and deacetylation degree on blood hemostasis was tested.
以壳聚糖为原料,用戊二醛作为交联剂,在醋酸溶液中合成壳聚糖水凝胶。
Chitosan hydrogel was synthesized in acetic acid solution with chitosan using glutaraldehyde as crosslinker.
涂膜剂的主要成分为壳聚糖、木立芦荟等配制成酸性溶液在番茄表面涂膜。
The methods of film were adopted. The cherry tomato that were treated by antistaling solution, which made up of Chitosan, Aloe Arborescens.
探讨了如何控制在均相条件下以高脱乙酰度的壳聚糖为主要原料,在乙酸水溶液- 乙醇-吡啶介质中实现壳聚糖N位乙酰化反应的问题;
By high acetylation of chitosan at N position with acetic anhydride in a homogeneous medium known as acetic solution–alcohol-pyridine system, water-soluble chitosan was prepared.
文中通过稀溶液黏度法、红外和X射线衍射法对胶原与壳聚糖分子间作用力进行了表征。
The molecular interactions in CC were characterised by dilute solution viscometry, Fourier transform infrared spectroscopy and X-ray diffraction.
以荧光探针法测定了芘在壳聚糖及衍生物溶液中的发射光谱,并计算出其极性参数值I1/I3 。
The characteristics of self-aggregates of chitosan and N-alkyl chitosan were examined by fluorescence probe techniques and the polarity parameter(I1/I3) was also calculated.
方法:壳聚糖的水溶液加入一定量的双氧水,加热搅拌一段时间进行降解。
Method: The hydrogen peroxide was added into the chitosan water solution, heated and stirred for some time.
但由于壳聚糖只能溶于酸性水溶液,不能直接溶于水中,所以水溶性壳聚糖衍生物的研制正成为一个新的研究方向。
However, chitosan can only dissolve in acidic solution, not directly dissolved in the water, so preparation of water-soluble is becoming a new research direction.
将N-甲基壳聚糖或N-乙基壳聚糖的甲酸溶液在高真空中浇铸成膜。
The N-methyl chitosan or N-ethyl chitosan was cast into films at high vacuum.
用溶液浇铸法在壳聚糖中引入的不同分子量的聚乙二醇,共混体系相容性好,实现了热力学水平上的均相。
Introduced different molecular weight PEG in chitosan by solvent casting method, the blending system had good compatibility, reached homogeneous phase of the thermodynamic level.
壳聚糖可完全溶解于乳酸水溶液中。
在较低温度和较短时间得到的壳聚糖在稀酸溶液中的粘度较高。
When the temperature is lower and the reaction time is shorter, the viscosity of chitosan obtained in the dilute acid is higher.
在水溶液中,壳聚糖与香草醛发生希夫碱反应,生成改性壳聚糖vcg。
Chitosan react with vanillin aldehyde by Schiff's base reaction in water, a polymer product-VCG can be prepared.
采用天然高分子物质壳聚糖、 海藻酸钠为壁材,无色染料油溶液为芯材,通过复合凝聚法制备纸用微囊。
The microcapsule used for paper was prepared using nature macromolecule material sodium alginate and chitosan as wall and a colorless dye oil as core by complex-coacervation.
采用天然高分子物质壳聚糖、 海藻酸钠为壁材,无色染料油溶液为芯材,通过复合凝聚法制备纸用微囊。
The microcapsule used for paper was prepared using nature macromolecule material sodium alginate and chitosan as wall and a colorless dye oil as core by complex-coacervation.
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