羟丙基三甲基氯化铵壳聚糖的制备及其吸湿、保湿性能

抑菌活性;羟丙基三甲基氯化铵壳聚糖的制备及其吸湿、保湿性能     

2-羟丙基三甲基氯化铵壳聚糖的制备及其性能研究

以脱乙酰度为95.37%的壳聚糖(CTS)为原料,异丙醇为溶剂,2,3-环氧丙基三甲基氯化铵为改性剂,于80℃反应12 h合成了水溶性季铵盐2-羟丙基三甲基氯化铵壳聚糖(HACC)。HACC的吸水保水性是CTS的2倍～3倍,加入化妆品中培养2周后菌落总数少于100 CFU.g-1。     

甲壳胍的合成及吸湿保湿性能

壳聚糖;;三氧化硫脲;甲壳胍的合成及吸湿保湿性能     

低分子量N-羧丁酰壳聚糖的合成及其吸湿保湿性

低分子量N-羧丁酰壳聚糖的合成及其吸湿保湿性;低分子量壳聚糖;低分子量N-羧丁酰壳聚糖;吸湿性;保湿性     

羟丙基三甲基氯化铵壳聚糖制备的可控性研究

用壳聚糖与缩水甘油三甲基氯化铵反应制备羟丙基三甲基氯化铵壳聚糖,所得产物的结构受壳聚糖分子量和脱乙酰度、反应温度、反应时间、壳聚糖与缩水甘油三甲基氯化铵投料比的影响。实验结果表明：随着反应温度升高,羟丙基三甲基氯化铵壳聚糖的取代度增加,在70～80℃达最大;反应时间增加,取代度增加,产物分子量降低。缩水甘油三甲基氯化铵与壳聚糖比例达3：1前取代度随比例升高而增加。脱乙酰度和分子量越大的壳聚糖其季铵盐取代度越高。控制反应温度在30～90℃,反应时间3～10h,投抖比为1：1～4：1,可以得到取代度15％～909／6,分子量1万到100万的羟丙基三甲基氯化铵壳聚糖。     

Synthesis, Structure and Properties of Novel Quaternized Carboxymethyl Chitosan with Drug Loading Capacity

A modified approach to prepare novel amphipathic octadecyl-quaternized carboxymethyl chitosan (QACMC) was reported, in which carboxymethyl chitosan (CMC), prepared from chitosan, was made to react with glycidyl octadecyl dimethylammonium chloride; thus, the octadecyl quaternary ammonium group was introduced into CMC. The structure and thermal properties of these derivatives were characterized by Fourier transform infrared spectroscopy (FTIR), proton nuclear magnetic resonance spectroscopy (¹H-NMR), X-ray diffraction (XRD), and differential scanning calorimetry (DSC). The crystalline properties of QACMC were perfect, and it had a high degree of crystallinity. All the chitosan derivatives had good thermal stability when the temperature was lower than 200 °C. The moisture-absorption and retention abilities of QACMC were lower than that of hyaluronic acid (HA) and CMC. The carboxymethyl and quaternary ammonium groups did not show a synergistic effect, and the effects of both the molar mass and the hydrophobic side chains of long alkyl moieties were important. Minocycline hydrochloride was successfully incorporated into QACMC polymeric micelles with a remarkably high efficiency (10.9%, mass fraction). QACMC promises to be a high-potential delivery vector for lipophilic drugs.     

Synthesis and Characterization of a Novel Liquid Crystalline Chitin — Quaternary Ammonium Chitosan Salt

N-Butyl chitosan(NBCS) derivatives were prepared by introducing butyl groups into the amine groups of chitosan via Schiff base intermediates. The quaternization of NBCS was carried out by using ethyl iodide to produce water-soluble cationic polyelectrolytes. The degree of the substitution of the products was measured by means of the electron spectroscopy for a successful chemical analysis. The quaternary ammonium chitosan salt(QACS) was proved to be a novel cholesteric liquid crystalline chitin, by means of the polarized optical microscopy and the circular dichroism spectropolarimetry. The critical mass fraction of the QACS/formic acid solution forming a lyotropic liquid crystal phase was 50%, which was almost the same as that of the NBCS/formic acid solution, but much hiuher than that of the chitosan in the same solvent.     

N-含硒壳聚糖衍生物的合成、表征及其生物活性

通过壳聚糖分子上的－ＮＨ２基与三种有机硒化合物邻甲硒基苯甲硒基苯甲酸对硝基苯酚酯、２－（４－苯甲酸甲酯基）－１,２－苯并异硒唑－３（２Ｈ）酮和硒代二乙酸反应,使有机硒分子片接枝到高分子壳聚糖上,合成了三种新的Ｎ－含硒壳聚糖衍生物。经元素分析,ＩＲ和ＵＶ分析表征了其结构。实验结果表明,Ｎ－含硒壳聚糖衍生物与预期结构相符。初步动物实验表明其具有一定的生物活性;抗脂质活性和抗肿瘤活性。     

壳聚糖含磷衍生物的合成、表征及其应用研究

壳聚糖是一种可再生的天然碱性多糖,具有多种优良的特性。但是,由于壳聚糖本身的溶解性很差,只能溶解在一些稀酸中,这就在一定程度上限制了其进一步的研究与应用。因此,通过修饰改性提高其已有功能、赋予新的功能是壳聚糖重要的研究领域。其中,通过磷酸化或磷酰化改性是壳聚糖改性研究的方向之一。本文综述了在壳聚糖链上引入含磷/膦基团合成壳聚糖含磷衍生物的研究进展;介绍并讨论了壳聚糖含磷衍生物的合成及纯化方法;对壳聚糖含磷衍生物结构、性能及表面形貌的表征进行了详细的阐述;对壳聚糖含磷衍生物的应用进行了总结,并展望了壳聚糖含磷衍生物未来的应用前景。     

新型载药壳聚糖季铵盐的合成、结构与性能

通过羧甲基壳聚糖接枝二甲基十八烷基环氧丙基氯化铵, 制备了一系列不同取代度和分子量的羧甲基壳聚糖十八烷基季铵盐(QACMC). 用傅立叶变换红外(FTIR)光谱、核磁共振谱(1H-NMR)、X射线衍射(XRD)谱、差式扫描量热法(DSC)等对其分子结构、结晶和热性能进行研究, 同时研究QACMC的吸湿保湿性能, 并与透明质酸(HA)、壳聚糖(chitosan)和羧甲基壳聚糖(CMC)进行比较. 结果表明, QACMC具有较好的结晶性和热稳定性, 结晶度可达72.3%; 其吸湿保湿性低于透明质酸(HA)和羧甲基壳聚糖, 而受季铵基团取代度和QACMC分子量的影响, 羧酸盐和季铵盐两种亲水基团对QACMC吸湿性的影响不具有协同作用; QACMC对亲脂性药物盐酸米诺环素的载药率可达10.9%(质量分数), 远高于壳聚糖和羧甲基壳聚糖.     

壳聚糖季铵盐的合成及结构表征

用异相法合成了水溶性壳聚糖季铵盐衍生物，并用红外光谱及核磁共振谱进行结构表征。结果表明：在中性反应条件下，壳聚糖分子的季铵盐衍生化反应主要发生于亲该中心Ｃ２位的氨基上，所合成的壳聚糖季铵盐衍生物可直接溶解于水。其水溶液可以任意比例与乙醇、丙二醇、甘油等混溶。     

Anthrathiadiazole Derivatives: Synthesis,Physical Properties and Two-photon Absorption

Anthrathiadiazole is a key synthon for the construction of large azaacenes, however, the attachment of different substituents onto the skeleton of anthrathiadiazole is difficult but highly desirable because it could be easy to enrich the structures of azaacenes. Here, it is demonstrated that anthrathiadiazole derivatives with −Br, −CN, and −OCH₃ groups could be easily constructed through a simple [4+2] cycloaddition reaction between a,a,a’,a’-tetrabromo-o-xylenes derivatives and benzo[c][1,2,5]thiadiazole-4,7-dione. The structures of the as-prepared compounds with different substituents were carefully characterized. Moreover, the basic physical properties of the as-prepared anthrathiadiazole derivatives were fully investigated, where the cyano-substituted derivative (BTH - CN) has the highest stability and the methoxy-substituted derivative ( BTH - OCH₃) is easy to be oxidized. Moreover, the two-photon absorption (TPA) characteristics of different anthrathiadiazoles are also studied by using the femtosecond Z-scan technique. The results show that the fused anthrathiadiazole skeletons possess large TPA cross-section values δ₂ in the range of 3000–5000 GM, where the nature, position and strength of the substituted groups have strong effect on these values.     

Synthesis and Characterization of a Novel Soluble Diethoxy Phosphoryl Chitosan

A simple and efficient method for the preparation of a novel soluble chitosan derivative, diethoxy phosphoryl chitosan (PH‐chitosan), has been developed. Ph‐chitosan was characterized by elemental analysis, FT‐IR, NMR, ICP, XRD, TG and SEM, respectively. The chemical identity of PH‐chitosan was determined by FT‐IR and confirmed by NMR, and those results unequivocally demonstrated that diethoxy phosphoryl groups were grafted onto the amino and hydroxyl groups of chitosan. The results of XRD indicated that the crystalline structure of chitosan was destroyed due to the incorporation of diethoxy phosphoryl group resulting in loss of hydrogen bond. The analysis of TG demonstrated that PH‐chitosan was less thermal stable than chitosan. This simple synthetic method provided a new and available approach to prepare a soluble high molecule weight chitosan derivative.     

新型蓝色上转换荧光分子的合成、表征与双光子吸收性能

设计并合成了3 个新的受体-给体-受体(A-D-A)构型上转换荧光分子,用傅里叶变换红外光谱、核磁共振氢谱、质谱和元素分析进行了表征. 测定了它们在不同溶剂中的线性吸收光谱、单光子荧光光谱和荧光量子产率. 以飞秒激光作为光源,研究了它们的双光子吸收和上转换荧光特性. 结果表明：该类化合物的荧光量子产率为0.20-0.68,双光子吸收截面为16×10^-50-101×10^-50 cm⁴·s·photon^-1,具有较强的蓝色上转换荧光发射.     

新型含胍基和季铵基团壳聚糖衍生物的合成

N,N-二甲基-1,3-丙二胺与单氰胺经亲核加成反应制得中间体N,N-二甲基-N′-胍基-1,3-丙二胺（2）; 以壳聚糖为起始原料,依次与氯乙酸、环氧氯丙烷经取代反应制得N-（1-羟基-3-氯丙基）-羧甲基壳聚糖（4）; 4与2经季铵化反应合成了一系列含有胍基和季胺基团的羧甲基壳聚糖衍生物（5）,其结构经¹H NMR, IR和元素分析表征。研究了反应配比［γ=m（2）∶m（4）］和反应时间对5取代度的影响,结果表明,当γ为3∶1,反应时间为10 h时,取代度最高(73%)。     

甲壳素,壳聚糖及其衍生物的应用

随着甲壳素,壳聚糖及其衍生物研究的迅速发展,其研究内容和应用范围越来越广泛。从发展历史,性质,提取及加工方法,应用,发展前景几个方面对其进行简要评述。     

Hydrophilic Chitosan Derivatives: Synthesis and Applications

Polymer alternatives sourced from nature have attracted increasing attention for applications in medicine, cosmetics, agriculture, food, water purification, and more. Among them, chitosan is the most versatile due to its full biodegradability, exceptional biocompatibility, multipurpose bioactivity, and low toxicity. Although remarkable progress has been made in its synthetic modification by using C3/C6 secondary/primary hydroxy (−OH) and the C2 amino (−NH₂) active sites, its solubility under physiological conditions remains limited and has hampered larger-scale adoption. This review summarizes different synthetic methods that increase chitosan‘s hydrophilicity and water solubility by using covalent modifications, namely amino acid addition, quaternary ammonium formation, phosphorylation, and carboxymethylation. We also review several applications for each type of substitution in fields such as cosmetics, medicine, agriculture, and water purification, and provide an outlook and perspective for future modifications and implementations.     

新型生物黏附性材料巯基壳聚糖的合成与表征

巯基聚合物利用二硫键的形成, 以共价键黏附于黏膜表面, 可以延长药物在黏膜上的滞留时间, 有利于药物分子的吸收. 本文合成了一种新型巯基聚合物——N-乙酰基-L-半胱氨酸-g-壳聚糖(CS-NAC), 并进行了表征, 同时对材料的溶胀度、黏附性和细胞毒性进行了测试. 结果表明, 这种巯基聚合物具有较高的巯基含量, 最高可达到589.3 μmol/g; 具有快速的溶胀性能; 黏附性显著增强, 黏附时间和黏附力分别是壳聚糖的30和3倍; 无明显的细胞毒性. 因此, CS-NAC是一种很有应用前景的生物黏附性材料.     

Synthesis and Two-photon Absorption Properties of s-Triazine Derivatives

Two new s-triazine derivatives, which belong to linear dipolar type and triangle octupolar type respectively, have been synthesized. The structure of the dipolar compound has been determined by X-ray diffraction. The two-photon absorption cross-section σ, and the two-photon excited fluorescence (TPEF) intensities are increased significantly from dipolar compound to octupolar compound.     

多支结构的吡嗪衍生物的合成及其双光子吸收性质

合成了一系列含有双支、三支和四支的吡嗪衍生物, 测定了它们的线性吸收和发射性质以及双光子吸收和发射性质. 随着吡嗪环上侧链数目的增加(支链数目从2到4), 吸收光谱(吸收峰位于290～390 nm)、荧光谱(发射峰位于400～510 nm)和双光子荧光谱(激发波长720 nm)都发生红移, 荧光量子产率也逐渐增强(从0.13增大到0.25). 另外, 从双支到四支结构, 双光子吸收截面σ按照1∶2.8∶3.7的比例增加, 接近于支链数目的平方之比(1∶2.25∶4), 表明多支结构的双光子吸收存在显著的增强效应, 其中四支结构的σ值为1007 GM. 实验中还发现, 对于具有相同支链数目的化合物, 邻、对位的取代模式比间位取代模式具有更强的单光子和双光子荧光性质.