二异氰酸酯与壳聚糖交联产物对金属离子的吸附性能

研究了二异氰酸酯与壳聚糖的交联反应,其产物与壳聚糖相比,酸溶解度由82.04％降到58.08％。DSC曲线表明,交联产物的热稳定性明显提高,对低价重金属离子(Hg     

CHIMEHERB中的有效成分对表皮细胞培养生长的影响

为观实CHIMEHERB有效成分,对新生小白鼠和人包皮外板的表皮细胞的生长影响,本文对7个实验浓度13次实验,112组592个组织块进行了组织培养的资料分析和机理的初步探讨,结果说明CHIMEHERB对表皮细胞无任何毒副作用,能100％的促进表皮细胞的生长.其相对生长率:小白鼠组为142.73％,人包皮外板组为440.58％,实验结果与临床应用效果一致.     

低聚壳聚糖的美拉德反应及其衍生物的抗氧化性能研究

醇沉法制得低聚壳聚糖美拉德反应8、16 h以及24 h的衍生物,分别记为CC-8、CC-16以及CC-24。对3种衍生物进行红外表征和分子量测定,并研究其对超氧阳离子O 2&、DPPH的清除能力以及还原能力。结果显示:反应体系pH呈下降趋势;UV-Vis光谱在280 nm波长处吸收峰有明显增强,反应16 h后增长缓慢;在343 nm的激发波长和420 nm发射波长下的荧光强度明显增高,反应16 h后开始下降;3种衍生物均保留着低聚壳聚糖的特征吸收峰;其对O 2&、.DPPH的清除能力以及还原能力均得到显著提高,且CC-16抗氧化能力最好。     

海洋脂肪酶ADM47601固定化方法的研究

采用海藻酸钠、壳聚糖、聚乙烯醇和明胶等材料, 进行对脂肪酶ADM47601的固定化研究。结果表明, 使用壳聚糖固定化脂肪酶, 在最优条件为2% (W/V)壳聚糖, 10% NaOH, 1%乙酸, 0.25%戊二醛, 每克载体添加840U脂肪酶时, 最大固定化酶活力回收率为87.06%。使用海藻酸钠-明胶固定化脂肪, 在最优固定化条件下, 最大固定化酶活力回收率为54.45%。使用聚乙烯醇固定化脂肪酶, 在最优固定化条件下, 最大固定化酶活力回收率为33.22%。使用海藻酸钠固定化脂肪酶, 在最优固定化条件下, 最大固定化酶活力回收率为17.11%。对比四种不同固定化酶方法, 脂肪酶活力回收率高度高低顺序为: 壳聚糖吸附交联法>海藻酸钠明胶协同包埋法>聚乙烯醇-硼酸法>海藻酸钠包埋法。     

壳聚糖硫酸酯金属配合物的抗氧化活性

以吩嗪硫酸甲酯-NADH为超氧阴离子自由基(O_2~(·-))产生、检测体系和EDTANa_2-Fe(Ⅱ)-H_2O_2为羟自由基(~·OH)产生、检测体系,对壳聚糖硫酸酯铜、锌配合物和不同分子质量壳聚糖进行了抗O_2~(·-)和~·OH自由基的活性研究.结果表明,壳聚糖硫酸酯金属配合物对于O_2~(·-)自由基的清除能力明显高于壳聚糖,在质量浓度为0.025 g/L时,壳聚糖硫酸酯铜配合物对O_2~(·-)自由基的清除能力达到94.18%,壳聚糖硫酸酯锌配合物达到93.19%;壳聚糖硫酸酯铜、锌配合物对~·OH自由基的清除能力(67.39%、60.46%)低于相同分子质量的壳聚糖(88.06%),而高于高分子质量壳聚糖761 ku(18.71%);壳聚糖分子质量大小对O_2~(·-)和~·OH自由基的清除能力有较大影响,质量浓度为1.6 g/L壳聚糖分子质量为20 ku时,对O_2~(·-)清除率达54.69%,而分子质量在761 ku时,对O_2~(·-)清除率仅为35.50%;各样品对O_2~(·-)和~·OH自由基的清除能力均随着质量浓度的增加而上升,壳聚糖硫酸酯铜、锌配合物在相当低的浓度下(0.025 g/L)就可以达到明显清除O_2~(·-)自由基的效果(≥90%).     

Preparation and charaterization of self-assembled nanoparticles based on linolenic-acid modified chitosan

1 IntroductionHydrophobically modified water-soluble polymers,also known as hydrophobized polymers, are thosemodified by hydrophobic groups such as alkyl,arolkyl, and deoxycholic acid. In water, they canself-aggregate due to their intro- and/or intermolecularhydrophobic interaction. By this process, unique hy-drogel nanoparticles with hydrophobic core and hy-drophilic shell can be prepared, which is a new ap-proach to preparing the monodispersed hydrogelnanoparticles (Whitesides et al., 1991; …     

Ultrasonic-assisted condensation of chitosan with salicylaldehyde

In order to synthesize an improved adsorbent for heavy metal ions, we studied the condensation reaction of chitosan with salicylaldehyde in ethanol to form a Schiff base. The effect irradiating the reaction using an ultrasonic liquid processor was contrasted with conventional methods. The IR spectra of condensed chitosan prepared by the two methods showed that their molecular structures were identical. The reaction conditions, including solvents, ultrasonic power density and irradiation time, pH, and reactant ratio, were optimized by orthogonal design. A shorter reaction time and a higher product yield were obtained using ultrasonic-assisted synthesis compared with the traditional method. A condensation degree of 89.63% was achieved using the optimized conditions: i.e. ultrasonic irradiation at 180 W for 60 min; 95% ethanol as the solvent, pH 4.0, and salicylaldehyde:chitosan ratio of 6:1.     

Effects of sulfate chitosan derivatives on nonalcoholic fatty liver disease

Sulfate chitosan derivatives have good solubility and therapeutic effect on the cell model of NAFLD. The aim of this study was to examine the therapeutic effect of sulfate chitosan derivatives on NAFLD. The male Wistar rats were orally fed high fat emulsion and received sulfate chitosan derivatives for 5 weeks to determine the pre-treatment effect of sulfate chitosan derivatives on NAFLD. To evaluate the therapeutic effect of sulfate chitosan derivatives on NAFLD, the rats were orally fed with high concentration emulsion for 5 weeks, followed by sulfate chitosan derivatives for 3 weeks. Histological analysis and biomedical assays showed that sulfate chitosan derivatives can dramatically prevent the development of hepatic steatosis in hepatocyte cells. In animal studies, pre-treatment and treatment with sulfate chitosan derivatives significantly protected against hepatic steatohepatitis induced by high fat diet according to histological analysis. Furthermore, increased TC, ALT, MDA, and LEP in NAFLD were significantly ameliorated by pre-treatment and treatment with sulfate chitosan derivatives. Furthermore, increased TG, AST, and TNF-α in NAFLD were significantly ameliorated by treatment with sulfate chitosan derivatives. Sulfate chitosan derivatives have good pre-treatment and therapeutic effect on NAFLD.     

壳聚糖和PDMDAAC改性膨润土用于处理含油废水的研究

含油废水污染范围广,对人类和生态环境危害大。采用常规方法(如浮选法、絮凝法、电化学法、膜分离法和生物法)处理的除油率不高于91%,成本较高,因此急需开发一种高效低廉的吸附剂。膨润土是一种优良的吸附剂,但用其直接处理含油废水的效果较低。本文选用壳聚糖和PDMDAAC两种有机物作为改性剂,对钠基膨润土改性,使膨润土能有效地处理含油废水。通过实验比较了两种有机改性膨润土处理含油废水的最佳去除条件,探讨了表征对其吸附性能的影响。去油效果结果表明:壳聚糖改性膨润土的除油率可达87.8%,PDMDAAC改性膨润土的除油率可达89.3%,处理所需时间少于15 min;除油效率和处理时间都优于常规方法。吸附性能表征结果显示,两种改性剂均以负载的方式和钠基膨润土颗粒结合,吸附性能良好;相比而言,PDMDAAC改性膨润土的处理效果比壳聚糖改性膨润土更好。PDMDAAC应用于含油废水的处理,具有成本低、效率高、操作简单的特点,在含油废水处理领域具有较好的应用前景。     

壳聚糖/蒙脱土插层复合物对活性红染料的吸附热力学研究

采用溶液插层法,利用壳聚糖和蒙脱土制备了壳聚糖/蒙脱土插层复合物,使用红外光谱和X-射线衍射分析对其结构进行了表征;以此复合物为活性红染料RR136的吸附剂,考察了复合物中壳聚糖与蒙脱土的摩尔比、染料溶液pH值和浓度、吸附温度及吸附剂用量等因素对吸附性能的影响。结果表明,吸附反应的最佳条件是以壳聚糖与蒙脱土摩尔比为5∶1的插层复合物为吸附剂,反应温度20℃,RR136溶液pH为3。壳聚糖/蒙脱土插层复合物对活性红染料的吸附更符合Langmuir模型,吸附热力学参数ΔGo、ΔHo和ΔSo值分别为-3.338kJ·mol-1(30℃),-37.98kJ·mol-1和-114.77J·mol-1·K-1,表明壳聚糖/蒙脱土插层复合物对活性红染料的吸附是自发的、以物理吸附为主的放热反应。