水溶性O-羟乙基壳聚糖的合成

壳聚糖[β-1→4）-2-氨基-2脱氧-D-葡萄糖]是目前发现的生物界唯一存在的碱性氨基多糖,具有无毒、可生物降解、良好的成膜性和生物相容性,近年来已在水处理、医药、食品、化妆品、农业等领域显示了其独特的应用用价值。但壳聚糖只溶于酸,在很大程度上限制了它的推广应用。通过降解     

壳聚糖及其衍生物抗菌活性的研究进展

壳聚糖是自然界目前发现的唯一碱性多糖,具有自然来源丰富,生物相容性好,可被生物降解,安全无毒和抗菌性强等许多天然的优良特性,现其广谱抗菌性已得到广泛的认可,但较差的水溶性限制了它的进一步应用。因此,通过一定的改性方法制备壳聚糖衍生物以提高其水溶性,是目前壳聚糖研究方面的热点之一。本论文就近年来几种常见的壳聚糖亲水改性方法及其衍生物在抗菌方面的应用进展进行综述,以期对壳聚糖的深入研究提供参考。     

改性壳聚糖抗菌纳米微球的制备

以卤胺化合物为抗菌基团对壳聚糖接枝改性, 并制备成纳米微球, 提高壳聚糖的抗菌性能. 通过核磁共振和紫外光谱对改性壳聚糖进行结构表征; 探讨了改性壳聚糖浓度、 三聚磷酸钠浓度及两者体积比对纳米微球的形成和粒径分布的影响; 测定了纳米微球的抗菌性能. 结果表明, 在改性壳聚糖浓度为4.0 mg/mL, 三聚磷酸钠浓度为2.0 mg/mL时, 形成的纳米微球形态稳定, 粒径分布均匀, 氯化后的纳米微球可在30 min内杀灭10⁷ cfu(cfu为单位体积中的菌落总数)的金黄色葡萄球菌和大肠杆菌, 表现出优异的抗菌性能.     

邻氨基苯酚改性壳聚糖树脂的制备及吸附性能的研究

本文制备了一种邻氨基酚改性壳聚糖树脂，用红外光谱和扫描电镜表征其结构，研究了该树脂对金属离子Cu^2 、Pb^2 、Ca^2 的吸附性能。结果表明，改性壳聚糖树脂为蜂窝状多孔微球树脂，平均戏约250μm，不溶于水、酸、碱，其对金属离子的吸附在pH=4时，2h基本达到平衡，对金属离子Cu^2 、Pb^2 、Ca^2 的静态饱和吸附量分别为2.95mmol/g、1.95mmol/g、1.32mmol/g。     

壳聚糖纳米银溶液的稳定性及在织物抗菌整理上的应用

采用化学还原法在不同浓度的壳聚糖醋酸溶液中以硼氢化钠还原硝酸银, 制备了系列壳聚糖纳米银溶液; 考察了不同质量分数的壳聚糖溶液对纳米银的浓度、 形貌和粒径大小的影响及纳米银的稳定性. 采用紫外-可见吸收光谱、 原子吸收光谱和透射电子显微镜对所得溶液进行表征, 结果表明, 当有壳聚糖存在时, 纳米银以小于50 nm球形粒子稳定分布于壳聚糖溶液中. 随着壳聚糖质量分数的增大, 形成纳米银浓度减小, 但稳定性提高, 壳聚糖质量分数控制在0.5%~0.7%范围内, 可得到浓度较高且稳定性良好的纳米银. 在壳聚糖和纳米银的共同作用下织物具有极好的抗菌性和抗菌长效性.     

改性壳聚糖树脂对利尿剂的吸附性能

用琥珀酸酐、苯甲酸酐、聚乙烯亚胺和 3 氯 2 羟丙基三甲基氯化铵对壳聚糖进行改性 ,分别在其氨基上引入羧基、苯环、多氨基和季胺基 ,并利用红外谱图对于改性后的壳聚糖的结构进行了分析 .应用相转移法制备了 4种改性壳聚糖的微球 ,实验研究了这 4种微球对 9种不同利尿剂的吸附性能 .结果表明 ,由于Lewis酸碱相互作用 ,引入羧基后的壳聚糖树脂对 3种碱性利尿剂的吸附量有了 15 %～ 36 %的提高 ,而引入多氨基的壳聚糖树脂对四种酸性利尿剂的吸附量分别提高了 4 8 5 %～ 2 0 9% ;由于苯环和利尿剂的憎水性基团的相互作用 ,引入苯环后的壳聚糖树脂对所有的利尿剂的吸附量都有所提高 ,其幅度为 15 %～ 6 1% ;因为季胺基团和羧基之间发生的离子交换作用 ,引入季胺基后的树脂对具有羧基的利尿剂吸附量有显著的提高 ,尤其对布美它尼的吸附量提高了 2倍以上 .     

烷基化壳聚糖衍生物的制备与性能研究

用卤代烷与壳聚糖反应，制备了具不同长度烷基取代基的壳聚糖衍生物。红外和Ｘ衍射测试结果表明：烷基取代基的引入削弱了壳聚糖分子间的氢键作用，可改善其溶解性能。其中，Ｃ２、Ｃ４和Ｃ８烷基取代衍生物有良好的水溶性，抗凝血性能则随烷基取代基的增长而得以改善。     

疏水改性羟乙基纤维素的流变性能研究

对疏水改性羟乙基纤维素(HMHEC)溶液的流变性质进行了系统研究,探讨了不同的浓度、温度、盐浓 度、pH值和剪切速率对其溶液表观粘度的影响.结果表明HMHEC溶液临界缔合浓度为0.3 g/100 ml.当HMHEC的浓度低于临界缔合浓度时,HMHEC溶液增稠以分子内缔合为主,增稠幅度小;当高于临界缔合浓度后,便会形成以大分子间缔合为主的动态物理交联网络结构.HMHEC水溶液具有良好的耐温耐盐及抗剪切性能,而且pH稳定性良好.     

水溶性银纳米材料的制备及抗菌性能研究进展

综述了近年来水溶性银纳米材料的研究进展;主要介绍了水溶性银纳米材料的制备方法、产物形貌和作为抗菌材料的应用,并对其发展前景作了展望.指出水溶性银纳米材料的制备方法主要有相转移法、化学还原法等;合成得到的Ag纳米材料呈球形、线形、棒状、三角形、立方形和树枝晶状等多种形貌.作为一类性能优异的新型抗菌材料,水溶性Ag纳米材料的抗菌性能与其粒径和形貌相关.     

纤维素/壳聚糖共混透明膜的制备及阻隔抗菌性能研究

利用壳聚糖溶液包覆法制备了具有高气体阻隔性及抗菌性的透明纤维素膜,其扫描电镜照片证明壳聚糖厚度在1.31 ～4.07 μm之间.通过红外光谱、紫外光谱、热重分析仪、电子万能试验机和接触角测试仪对纤维素/壳聚糖共混膜的结构和性能进行了详细研究,结果表明由于壳聚糖和纤维素之间具有一定的氢键相互作用,使得纤维素/壳聚糖共混膜较好地保持了纯纤维素膜的机械强度,其拉伸强度都大于110 MPa.此外,壳聚糖的包覆对纤维素膜的透明性没有影响,它在600 ～ 800 nm处的透光率仍维持在80％左右,并且提高了纤维素膜的疏水性,其水接触角从纤维素膜的70°提高到了100°.利用气体渗透仪进一步研究了纤维素/壳聚糖共混膜的氧气阻隔性,结果表明该膜具有很好的氧气阻隔性,其氧气渗透系数甚至低于市场上理想的氧气阻隔材料乙烯-乙烯醇共聚物(EVA).金黄色葡萄球菌抗菌测试表明,通过壳聚糖包覆法改性纤维素能够明显提高纤维素膜的抗菌性.     

High Substitution Synthesis of Carboxymethyl Chitosan for Properties Improvement of Carboxymethyl Chitosan Films Depending on Particle Sizes

This study investigated the effect of chitosan particle sizes on the properties of carboxymethyl chitosan (CMCh) powders and films. Chitosan powders with different particle sizes (75, 125, 250, 450 and 850 µm) were used to synthesize the CMCh powders. The yield, degree of substitution (DS), and water solubility of the CMCh powders were then determined. The CMCh films prepared with CMCh based on chitosan with different particle sizes were fabricated by a solution casting technique. The water solubility, mechanical properties, and water vapor transmission rate (WVTR) of the CMCh films were measured. As the chitosan particle size decreased, the yield, DS, and water solubility of the synthesized CMCh powders increased. The increase in water solubility was due to an increase in the polarity of the CMCh powder, from a higher conversion of chitosan into CMCh. In addition, the higher conversion of chitosan was also related to a higher surface area in the substitution reaction provided by chitosan powder with a smaller particle size. As the particle size of chitosan decreased, the tensile strength, elongation at break, and WVTR of the CMCh films increased. This study demonstrated that a greater improvement in water solubility of the CMCh powders and films can be achieved by using chitosan powder with a smaller size.     

Synthesis,Characterization and Antioxidant Activity of Quaternized Carboxymethyl Chitosan Oligosaccharides

In order to determine the effect of quaternary ammonium groups and carboxymethyl groups of chitosan on antioxidant activity, nine quaternized carboxymethyl chitosan oligosaccharides (QCMCOs) were prepared from chitosan with chloroacetic acid and 2,3-epoxypropyltrimethyl ammoniumchloride as the modifying agent under microwave irradiation. The structures of QCMCOs were characterized by FT-IR, NMR, XRD and their Mw were detected by gel permeation chromatography (GPC). The thermal stability was evaluated by thermal gravimetric analysis (TGA), and their antioxidant activities were investigated including scavenging activity of superoxide and hydroxyl radical, reducing power and metal chelating ability. The results revealed that the introduction of quaternary ammonium groups and carboxymethyl groups decreased the crystallinity and the thermal stability of chitosan oligosaccharide (COS), and their antioxidant activities were closely related to the degree of substitution of quaternary ammonium groups and the carboxymethyl groups. This study provides important guidelines for developing new antioxidant agents.     

壳聚糖共混微球的制备及吸附性能测试

壳聚糖（CS）分子中含有游离态的氨基和羟基,是一种高效的离子吸附剂,而且氨基可质子化形成阳离子,使得壳聚糖对阴离子及两性化合物都具有较强的吸附能力.壳聚糖引入羧甲基后水溶性和反应活性大大增强.实验中以乳化-化学交联法制备壳聚糖/羧甲基壳聚糖（CMC）四种共混微球,通过对比,发现当CS与CMC的质量比为4∶1、2∶3时,成球硬度好,形状明显,大小均匀.随着CMC含量的增加,所成微球对牛血清白蛋白（BSA）的吸附能力逐渐增强.因此,当CS与CMC质量比为2∶3时共混微球自身的物理形态与吸附性能均达到良好状态,是共混高效离子吸附剂的最佳比例选择.     

Preparation and Antimicrobial Activity of Chitosan and Its Derivatives: A Concise Review

Despite the advantages presented by synthetic polymers such as strength and durability, the lack of biodegradability associated with the persistence in the environment for a long time turned the attention of researchers to natural polymers. Being biodegradable, biopolymers proved to be extremely beneficial to the environment. At present, they represent an important class of materials with applications in all economic sectors, but also in medicine. They find applications as absorbers, cosmetics, controlled drug delivery, tissue engineering, etc. Chitosan is one of the natural polymers which raised a strong interest for researchers due to some exceptional properties such as biodegradability, biocompatibility, nontoxicity, non-antigenicity, low-cost and numerous pharmacological properties as antimicrobial, antitumor, antioxidant, antidiabetic, immunoenhancing. In addition to this, the free amino and hydroxyl groups make it susceptible to a series of structural modulations, obtaining some derivatives with different biomedical applications. This review approaches the physico-chemical and pharmacological properties of chitosan and its derivatives, focusing on the antimicrobial potential including mechanism of action, factors that influence the antimicrobial activity and the activity against resistant strains, topics of great interest in the context of the concern raised by the available therapeutic options for infections, especially with resistant strains.     

壳聚糖/羧甲基壳聚糖金属配合物对氧自由基的清除作用研究

以NADH-PMS-NBT体系产生超氧阴离子自由基(o2-·)和EDTANa2·Fe(Ⅱ)-H2O2体系产生 羟自由基(·OH)来研究壳聚糖Cu(Ⅱ)、Zn(Ⅱ)配合物、羧甲基壳聚糖Cu(Ⅱ)、Zn(Ⅱ)配合物时氧自由基的 清除作用。结果显示配合物对O2-·和·OH均具有明显的清除作用,其中铜(Ⅱ)配合物对O2-·的清除活 性最高,而锌(Ⅱ)配合物比铜(Ⅱ)配合物具有更强的清除·OH的能力,羧甲基壳聚糖Cu(Ⅱ)、Zn(Ⅱ)配合 物与含有相同金属离子的壳聚糖配合物相比对O2-·和·OH具有更高的抑制活性。     

甲壳素和壳聚糖化学改性研究进展

甲壳素是一种天然多糖,脱除乙酰基的产物是壳聚糖,作为新型功能生物材料,它们已在水处理、日用化学品、生物工程和医药等领域得到了应用,但它们不溶于一般的有机溶剂,从而限制了其广泛应用.为此,甲壳素和壳聚糖的化学改性成为该材科研究的重要方向之一.本文综述了近年来甲壳素和壳聚糖化学改性方面的研究进展,着重介绍了选择性化学修饰的方法和发展动向.     

呋喃甲酰壳聚糖的制备、表征及其抗氧化活性

以壳聚糖与呋喃甲酰氯反应得到呋喃甲酰壳聚糖。通过FT-IR、1 H-NMR、X射线衍射、热重分析、溶解度实验、元素分析、抗氧化活性测试等手段对产物进行了结构和性能表征。结果表明：产物为目标产物且热稳定性好于壳聚糖;在水中的溶解性能良好,溶解度为0.04g/mL;取代度为0.69;当对羟基自由基的清除率达到50%时,呋喃甲酰壳聚糖的质量浓度为1.1mg/mL,其还原能力随质量浓度增加而增强,抗氧化活性优于壳聚糖。     

低碱法制备羧甲基壳聚糖及表征

低碱法制备羧甲基壳聚糖及表征;壳聚糖;羧甲基壳聚糖;取代度;特性粘度;低碱法     

甲壳素/壳聚糖及其衍生物抗菌、抗肿瘤活性研究进展

主要从甲壳素 /壳聚糖及其衍生物在抗菌、抗肿瘤活性两方面的研究进展进行了综述。     

壳聚糖抗菌活性的影响因素

以大肠杆菌为实验菌种,研究了壳聚糖的浓度,脱乙酰化度、分子量、及环境ＰＨ值等因素对壳聚糖抗菌活性的影响,并初步探讨了壳聚糖的抗菌机理,结果表明,在研究范围内,随着浓度和脱乙酰化度的提高,抗菌活性增强;随分子量的增加,抗菌活性出现先增强而后略有减弱的趋势,转折点在９．１６＊１０＾４前后;在ＰＨ为６．５左右,抗菌活性最优,通过激光共焦显微镜对异硫氰酸荧光素（ＦＩＴＣ）标记的壳聚糖齐聚物（Ｍｗ＝８０００）与大肠杆菌作用的观察,发现具有抗菌性的壳聚糖齐聚物进行到了细菌细胞的内部,用扫描电镜观察分子量为２７．４＊１０＾４的壳聚糖对大肠杆菌的作用,发现壳聚糖使菌体凹陷变形,并伴有自溶现象。