壳聚糖季铵盐/滤纸复合膜对胆红素的吸附研究

用2,3-环氧丙基三甲基氯化铵对壳聚糖进行化学修饰,在壳聚糖的分子结构中引入季胺盐基团,提高其阳离子含量。将壳聚糖季铵盐涂在滤纸上,用戊二醛交联,制得壳聚糖季铵盐/滤纸复合膜,考察该复合膜的强度以及对胆红素的吸附性能。实验结果表明,壳聚糖季铵盐/滤纸复合膜具有良好的力学性能;对胆红素的吸附在3h基本达到平衡,其吸附量远大于壳聚糖/滤纸复合膜;适当取代度及高交联度的复合膜吸附效果较好。复合膜对胆红素的吸附量随离子强度的增加而降低;血清白蛋白的加入使吸附量下降。     

铜模板交联壳聚糖对金属离子的吸附性能研究

研究了壳聚糖对CuSO4、Cu(Ac)2、Cu（NO3)2和CuCl2溶液中铜离子的吸附性能，并以各种铜盐为模板合成了戊二醛交联树脂，考察该树脂了对金属离子的选择吸附性能．结果表明，交联树脂对铜离子有较强的“记忆”功能，且以硫酸铜为模板的壳聚糖较其它盐的模板有更高的吸附量和选择性．     

壳聚糖-丝心蛋白合金膜的研究(Ⅱ)──半互穿聚合物网络型膜对pH和离子的敏感性

研究了壳聚糖-丝心蛋白半互穿聚合物网络型膜对pH值和离子的敏感性,发现该膜在pH<3.3时溶胀度剧烈增加;在pH=2时,是否出现溶胀极大值与膜组分的含量及交联剂的含量有关;膜在不同pH值溶液中可交替溶胀和收缩,且这种溶胀-收缩行为重复可逆。同时,该膜在不同离子溶液中的溶胀度亦不同;在相同离子强度的溶液中,此膜在3价离子中的溶胀度最大。     

壳聚糖—丝心蛋白合金膜的研究（Ⅱ）：半互穿聚合物网络型膜对…

研究了壳聚糖－丝心蛋白半互穿透合物网络型膜对ｐＨ值和离子的敏感性，发现该膜在ｐＨ〈３．３时溶胀度剧烈增加；在ｐＨ＝２时，是否出现溶胀极大值与膜组分的含量及交联剂的含量有关；膜在不同ｐＨ值溶液中可交替溶胀和收缩，且这种溶胀－收缩行为重复可逆，同时，该膜在不同离子溶液中的溶胀度亦不同，在相同离子强度的溶液中，此膜在３价离了了中的溶胀度最大。     

磁性交联壳聚糖对稀土金属离子的吸附性能

用高胶乙酰度的壳聚糖包埋自制的磁流体，并用戊二醛交联制成磁性壳聚糖（MCG），考察了其对稀土离子La^3 ,Nd^3 ,Eu^3 ,Lu^3 的吸附性能。探讨了溶液的酸度，体系温度，初始离子浓度对MCG吸附性能的影响；发现MCG对稀土离子的吸经纯高脱乙酰度的壳聚糖强，最高吸附率可达到99％以上，并具有良好的重复使用性；其吸附行为满足Langmuir等温式。     

交联羧甲基壳聚糖对铅离子的吸附研究

以壳聚糖为原料,先在氨基上引入羧甲基制备出N-羧甲基壳聚糖,再和环氧氯丙烷发生交联反应,合成出新型交联羧甲基壳聚糖,FTIR表征其结构。研究了交联羧甲基壳聚糖对Pb2+的吸附性能,探讨了交联剂用量、铅离子溶液的pH值、温度、吸附时间等因素对其吸附性能的影响,并考察了交联羧甲基壳聚糖对铅离子吸附动力学和热力学实验。实验结果表明,交联羧甲基壳聚糖对铅离子的吸附量优于壳聚糖,平衡吸附量可达297.6 mg/g。交联羧甲基壳聚糖对铅离子的吸附符合准二级动力学模型和Langmuier等温吸附,吸附主要依靠结构中的羧基和氨基基团。     

壳聚糖水凝胶微球的制备与溶胀性能

采用三聚磷酸钠(TPP)和六偏磷酸钠(SHMP)为复合交联剂,制备了离子交联网络结构的壳聚糖水凝胶微球。分析讨论了交联剂质量配比、pH以及离子强度等对壳聚糖微球溶胀性能的影响。结果表明:使用复合交联剂制备的微球的溶胀度比单独使用TPP或SHMP的分别低62.4%和41.3%,交联效率得到明显提高;当m(TPP)∶m(SHMP)=3∶5,交联剂pH=5时,制备的微球交联程度最好,结构最密实;在pH=1.2的缓冲溶液中,溶胀度可达到357%,而且凝胶没有任何破碎。微球具有较好的离子强度和pH敏感性,在酸性介质中有较高的溶胀度。     

铅离子印迹聚合物的制备表征及其吸附性能研究

以铅离子为模板,壳聚糖为功能单体,采用分子印迹技术,加入交联剂环氧氯丙烷,合成了铅离子印迹的交联壳聚糖。通过红外光谱对铅离子交联壳聚糖进行了结构表征,通过扫描电镜对其形态结构进行表征。研究了不同条件下交联壳聚糖对铅离子的吸附性能,结果表明,当溶液p H=4.5时,交联壳聚糖对溶液中铅离子的吸附效率较高。吸附在交联壳聚糖上的铅离子可用0.1mol·L的EDTA溶液洗脱,洗脱率达82.73%。利用原子吸收分光光度法对印迹聚合物的最大吸附量进行了研究,结果表明,所合成的模板交联壳聚糖分子印迹聚合物对铅离子具有良好的吸附性;对印迹聚合物的选择性吸收进行研究,研究表明,印迹聚合物对铅离子的选择性好,能用于水溶液中除去铅离子。     

表面印迹纳米磁性壳聚糖的制备及对Cu(Ⅱ)的吸附研究

将壳聚糖与自制的纳米四氧化三铁反应,加入一定量的铜盐使其与壳聚糖络合,再用环氧氯丙烷交联,用酸洗脱铜离子,得到表面印迹的纳米磁性壳聚糖.考察了阴离子、交联剂浓度对铜印迹效果的影响.用振动磁力仪及透射电镜对样品的性质进行表征.研究了表面印迹的纳米磁性壳聚糖对Cu2 的吸附性能.研究结果显示,用硝酸铜印迹制备的表面印迹纳米磁性壳聚糖吸附剂平均粒径为25nm,饱和磁化强度为98.56emu/g,壳聚糖含量为18.7%.吸附剂吸附容量大,吸附速度快.在Cu2 初始浓度为3.91mmol/L,pH为5时,15min即达到吸附平衡,以壳聚糖计Cu2 的饱和吸附量为4.07mmol/g,比纯壳聚糖粉高2倍.在含Zn2 或Cd2 、Pb2 的二元体系溶液中,离子印迹吸附剂对Cu2 具有明显的选择吸附性,而未印迹的纯壳聚糖粉几乎没有选择性.吸附剂易回收,重复使用性好,重复使用4次后,吸附量约保留最初饱和吸附量的98%.     

交联型季铵聚芳醚砜阴离子交换膜的制备

采用简便环保的方法制备了具有低溶胀、高离子交换容量(IEC)的交联型季铵聚芳醚砜阴离子交换膜.随着交联度的提高,膜的吸水率和溶胀率降低,说明交联可以抑制膜的溶胀.20℃时所有交联膜的离子传导率均达0.045 S/cm以上,拉伸强度在50.1 MPa以上,表明在高IEC值下,交联膜仍具有良好的力学性能和较高的离子传导能力.同时,交联度提高会加强膜的甲醇阻隔性能.     

Preparation of a Cyclomaltoheptaose(β-cyclodextrin) Cross-linked Chitosan Derivative via Glyoxal or Glutaraldehyde

Chitosan has been regarded as a multifunctional polymer applicable to various purpos-es1. The potential of the material in medical applications, particularly in drug-delivery formu-lations has been demonstrated2, 3. Recently, a crosslinked chitosan with various crosslink-ing agents was prepared as adsorbents4-7. A -cyclodextrin (?CD) has been subjected to numerous studies, particular in terms of its complexing ability with a variety of components8, 9. The complexing ability of -CD has b…     

Investigations on the adsorbents for uremic middle molecular toxins (Ⅱ)——Influences of crosslinking agent chain length on the adsorption capacities of crosslinked chitosan adsorbents

Chitosan resins, which clinically served as adsorbents in hemoperfusion therapy, were prepared with reversed-phase suspension methodology using three differently structured crosslinking agents, methanal, glyoxal and glutaraldehyde. And the glyoxal and glutaraldehyde crosslinked chitosan resins were reduced with NaBH4 afterwards. By analyzing the results from FTIR and SEM, it was found that the reduction treatment to the adsorbents efficiently improved the chemical stability of these chitosan resins, and the shifts in crosslinking agents exerted influences over the morphologies of the adsorbents obviously. After being put to use in the adsorption tests upon some model uremic middle molecular toxins and BSA in vitro, all three adsorbents demonstrated a fairly realistic adsorption capability to the model toxins but little to BSA. And the adsorption process reached the equilibrium in a clinically qualified short time. But the adsorption capacities of these adsorbents to the model toxins were quite different. It     

Amperometric Biosensor Based on Immobilization of Oxalate Oxidase in a Mucin/Chitosan Matrix

An amperometric electrode for oxalate determination immobilizing the oxalate oxidase in a mucin/chitosan (muc/chit) gel with glutaraldehyde as crosslinking agent is presented. The effect of muc/chit weight ratio and volume percent (vol.%) of glutaraldehyde was studied. A very low dynamic response was observed in the case of 100% chitosan with 5 vol.% crosslinking agent. The addition of mucin to chitosan for enzyme immobilization resulted in a biosensor with much better performance, concerning to dynamic response, sensitivity, and stability, with 75% of the initial response after two months. The ratio muc/chit 70/30 was considered optimum for the immobilization. A slight crosslinking and the incorporation of mucin largely influences the swelling and diffusion of the analyte; a direct effect of these properties on the calibration slope was found; the hydrophilic environment for the biomolecule also favor the enzymatic activity through a higher enzyme‐substrate interaction.     

然聚电解质壳聚糖/羧甲基壳聚糖配合物膜的研制

制备了一种新型聚电解质膜壳聚糖/羧甲基壳聚糖配合物膜, 并对膜的结构进行了初步表征; 同时考察了不同配比的配合物膜对模型蛋白质溶菌酶的吸附性能. 结果表明, 在碱性条件下(pH＝9.2), 随着羧甲基壳聚糖含量的增加, 膜对溶菌酶的吸附能力也随之增强; 当羧甲基壳聚糖的含量为w＝40%时, 膜的吸附性能较佳, 可达92 mg/g.     

Investigations on the adsorbents for uremic middle molecular toxins (II)

Chitosan resins, which clinically served as adsorbents in hemo perfusion therapy, were prepared with reversed-phase suspension methodology using three differently structured crosslinking agents, methanal, glyoxal and glutaraldehyde. And the glyoxal and glutaraldehyde crosslinked chitosan resins were reduced with NaBH₄ afterwards. By analyzing the results from FTIR and SEM, it was found that the reduction treatment to the adsorbents efficiently improved the chemical stability of these chitosan resins, and the shifts in crosslinking agents exerted influences over the morphologies of the adsorbents obviously. After being put to use in the adsorption tests upon some model uremic middle molecular toxins and BSA in vitro, all three adsorbents demonstrated a fairly realistic adsorption capability to the model toxins but little to BSA. And the adsorption process reached the equilibrium in a clinically qualified short time. But the adsorption capacities of these adsorbents to the model toxins were quite different. It had been found that with the growing of fatty chain length of crosslinking agent, these adsorbents showed a gradually increased adsorption capacity to the model toxins, and the glutaraldehyde crosslinked chitosan resin behaved best.     

Novel nylon-supported organic-inorganic hybrid membrane with hierarchical pores as a potential immobilized metal affinity adsorbent

Chitosan-based porous organic-inorganic hybrid membranes supported by microfiltration nylon membranes were prepared, in which gamma-glycidoxypropyltrimethoxysilane (GPTMS) was used as an inorganic source as well as crosslinking reagent. Polyethylene glycol (PEG) with different molecular weight and content was used as imprinting molecule for morphology control. In situ crosslinking of chitosan and simultaneous polymerization of GPTMS in PEG template environment endowed the hybrid membrane with specific characteristics. Distinct hybrid effect between chitosan (CS) and GPTMS was revealed by shifting in X-ray diffraction (XRD) pattern, decomposition in simultaneous thermogravimetry and differential scanning calorimetry (TG/DSC) testing. As manifested by scanning electron microscopy (SEM), the molecular weight and content of PEG had remarkable effect on the resulting surface morphology of the hybrid membrane and a given surface morphology could be obtained by extracting of the imprinted PEG molecular. Among three types of porogen used: PEG 400, PEG 4000 and PEG 20000, only PEG 20000 could result in a porous surface. Moreover, a special porous surface with three-dimensional (3D) hierarchical structure-in-structure pore fashion was obtained when content of PEG 20000 was controlled at 15%. Experimental results also showed that the hybrid membrane had low swelling ratio and high stability in acidic solution. After conveniently coordinated with copper ions, the porous metal chelating hybrid membrane could effectively adsorb the model protein, bovine serum albumin (BSA). As expected, the hybrid membrane imprinted with 15% PEG 20000 had remarkably high copper ion binding and BSA adsorption capacity, which might result from the large surface area, high ligand density and suitable interconnected 3D hierarchical porous surface.     

Ice-templated porous polymer/UiO-66 monolith for Congo Red adsorptive removal

Chitosan/MOF composite porous monolith used in water remediation as adsorbent can realize high-efficient removal of pollutant in water and facile recycling from water. However, dissolution of chitosan (without crosslinking) in acidic aqueous solution will cause breakage of composite monolith. Herein, we report a chitosan/UiO-66 monolith prepared by ice-templating method. Specially, a pre-crosslinking treatment (by glutaraldehyde) is employed before the monolith formation, which obviously boosts its stability in aqueous solution. The composite monolith is evaluated by SEM, N₂ adsorption, XRD, and batch adsorption tests for Congo Red (CR). The results show that the composite monolith possesses a typical ice-templating structure with hierarchical (mirco- / meso- and macro-) pores. UiO-66 particles are embedded on the surface of chitosan matrix, and the crystal structure of UiO-66 is not changed obviously by the crosslinking and freezing process. The composite monolith exhibits high adsorption efficiency (90% of CR was removed from its aqueous solution in 60 min) and the maximum adsorption capacity of 246.21 mg/g (derived from Langmuir model) can be reached. After adsorption, the monolith is collected by a facile procedure and recovered using ethanol for evaluating its reusability. After 4 cycles, the CR removal efficiency of the composite monolith still remains ~90% of the initial efficiency. This work demonstrates that the simple crosslinking procedure before monolith formation can ensure the intact shape of the chitosan/MOF monolith during adsorption.     

Crosslinked Networks Based on Polysaccharides and Collagen for Pilocarpine Sustained Release

The paper presents the experimental studies regarding synthesis and characterization of hydrogels based on gellan (Gel)/chitosan (CS) and collagen (Col), obtained by crosslinking with glutaraldehyde (GLA). The influence of the polysaccharide content and GLA ratio on the final composition and swelling characteristics was evaluated. Hydrogels swelling analysis, in distilled water and phosphate buffer (PBS, pH 7.2) has shown higher swelling degrees at increased concentration of polysaccharide into hydrogels. In vitro release of pilocarpine has demonstrated the possibility to use gellan-collagen and chitosan-collagen hydrogels as ophthalmic drug delivery matrix.     

PREPARATION AND ADSORPTION OF THIOUREA MODIFIED GLUTARALDEHYDE-CROSSLINKED CHITOSAN RESINS

The preparation and adsorption of thiourea modified glutaraldehyde-crosslinked chitosan resin (Thio-chitosan) using cyanuric chloride as activator was studied. The adsorptive capacity of thio-chitosan with 15% apparent degree of crosslinking (DC, mass ration of glutaraldehyde to chitosan) to Cu(Ⅱ) was 160mg/g (dry weight). The adsorption of Cu(Ⅱ) was correlated with Freundlich and Langmuir isotherm equation. Cu(Ⅱ) adsorbed on thio-chitosan column ( 1 cm×10 cm)was eluted with 0.5mol/L H2SO4, 6mol/L HCl and 3% thiourea solution with the recovery of 88.3%,86.1% and 95.3%, respectively. The thio-chitosan resin can be applied to the separation and recovery of metal ions.     

Swelling and Reswelling Characteristics of Cross-Linked Poly(vinyl alcohol)/Chitosan Hydrogel Film

Poly(vinyl alcohol) (PVA), hydrogel was prepared by using glutaraldehyde as a cross-linking agent. The blend semi-synthetic hydrogel film, consisting of PVA and chitosan, was prepared from a solvent-casting technique and characterized for their intermolecular interactions using infrared method. The swelling and reswelling behaviors, as well as mechanical properties of the synthetic and semi-synthetic gels were examined by weighing and tensile testing, respectively. Cross-linking the two types of polymer with glutaraldehyde produces a film with lower crystallinity and smaller swelling and reswelling degrees, but having improved mechanical properties. Also, the two types of films show a pH-dependent swelling characteristic. It was found that, the reswelling properties of synthetic hydrogels can be improved by blending PVA with certain ratio of natural polymer. This blending film, can be improve sandy soil properties for cultivation, such as, controlled release of water.