明胶-聚异丙基丙烯酰胺水凝胶的溶胀动力学

采用明胶（Gel)和N－异丙基丙烯酰胺（NIPAM）为原料，制备了Gel/聚异丙基丙烯酰胺（PNIPAM）水凝胶系列；研究了原料配比、pH值及温度对水凝胶溶胀速度的影响。结果表明，当温度大于PNIPAM的最低临界溶液温度（LCST）值时，Gel/PNIPAM水凝胶的溶胀速度随着组分中PNIPAM的增加而降低，且溶胀过程以扩散渗透控制为主。而pH对水凝胶溶胀速度的影响与温度有关。Gel/PNIPAM配比为5／5，温度大于LCST时，水凝胶的pH敏感性受明胶控制；温度低于LCST时，pH对水凝胶的溶胀速度的影响很小。     

聚乙烯醇水凝胶溶胀特性研究

在前文对聚乙烯醇水溶液冰冻凝胶化浓度依赖性研究基础上，对接触浓度（Ｃ）以上聚乙烯醇水溶液通过冰冻－融化处理，制得了一种含水率高达９５～９８％的水凝胶．系统研究了该水凝胶在蒸馏水中的溶胀及溶解特性．得到了一个与实验结果相吻合的溶胀动力学方程：Ｑ１＝Ｑｅ－（Ｑｅ－ＱＯ）／ｅｋｔ，及平衡溶胀比Ｑｅ与浓度之间的定量关系：Ｑｅ＝６０．３－４．４５×１０２Ｃ．发现当冰冻－融化次数Ｎ≤５时，平衡溶胀比Ｑｅ及溶解量Ｗ与冰冻－融化次数（Ｎ）间满足幂函数关系：Ｑｅ。Ｗ通过对聚乙烯醇水凝胶平衡溶胀比与经冰冻处理的聚乙烯醇水溶液特性粘数进行比较，发现反映链间氢键凝聚缠结效应与反映链内氢键凝聚缠结效应的定量指标具有等效性．     

聚乙烯醇/丙烯酸共聚物水凝胶的制备及溶胀性

制备了具有pH敏感性的聚乙烯醇(PVA)/丙烯酸(AA)共聚物水凝胶,研究了PVA与AA之间配比、交联剂、引发剂用量对凝胶转化率的影响,对水凝胶的溶胀行为和pH敏感性也进行了详细研究.实验表明PVA与AA的质量比为(1∶9)~(3∶7)之间时,引发剂和交联剂分别为PVA和AA总量的0.2%和0.3%时,凝胶转化率高.随着水溶液pH值从3增加到9,凝胶的溶胀比也相应的增加,表现出明显的pH敏感性.     

聚乙烯醇硫酸钾水凝胶电机械化学行为研究

通过将交联聚乙烯醇硫酸酯化的方法制备了一种新型电刺激响应性聚乙烯醇硫酸钾(PVSK)智能水凝胶,并探讨了溶液离子强度和pH对PVSK水凝胶的溶胀吸水率、机械性能以及电机械化学行为的影响.结果表明,制备的PVSK水凝胶的平衡溶胀比随NaCl溶液离子强度的增大而减小,在pH2.39～10.83范围内基本不受溶液pH的影响;经不同离子强度和pH的NaCl溶液充分溶胀的PVSK水凝胶具有良好的机械性能,在非接触的直流电场作用下,该水凝胶向电场负极弯曲,凝胶的弯曲速度和弯曲偏转量随外加电场强度的增加而增大,随NaCl溶液离子强度的增大出现临界最大值,但不随溶液pH(2.08～10.53)的改变而改变;在循环电场作用下,PVSK水凝胶的电机械化学行为具有良好的可逆性.     

PVA-PAMPS-PAA三元互穿网络型水凝胶的合成及其性能研究

以2-丙烯酰胺基-2-甲基丙磺酸(AMPS)、丙烯酸(AA)以及聚乙烯醇(PVA)为原料,制备了PVA-PAMPS-PAA三元互穿网络型(T-IPN)水凝胶.红外分析表明,PVA与PAA以及PAMPS之间形成了较强的氢键,使得PVA分子上的C—O伸缩震动吸收峰移向了低波数处.X射线衍射以及电镜分析表明,当PVA用量较低时,PVA能均匀的穿插于凝胶网络中,形成完善的互穿网络结构,当PVA用量过高时,部分的PVA结晶而使得凝胶出现相分离.研究了该三元互穿网络型水凝胶的溶胀性能,结果表明,该水凝胶的平衡溶胀比在200至340之间,并且随着AA以及AMPS用量的增加,凝胶的溶胀速率以及平衡溶胀比均升高.该三元互穿网络型水凝胶在酸性溶液中和在碱性溶液中表现出截然不同的消溶胀性能;并且随着溶液pH的升高,凝胶在pH=9.0附近出现体积突变,表现出pH敏感性.通过研究T-IPN水凝胶的抗压缩性能发现,利用线型高分子、柔性高分子网络以及刚性高分子网络制备的三元互穿网络型水凝胶能在高溶胀比下保持较高的强度.溶胀比为180的T-IPN水凝胶,其最大抗压缩强度可达12.1 MPa.进一步研究发现,凝胶的组成以及溶胀比均对凝胶的抗压缩强度和压缩应变均存在较大的影响.     

聚乙烯醇/羧甲基壳聚糖共混水凝胶的辐射合成及性能

采用电子加速器辐照法制备了聚乙烯醇(PVA)/羧甲基壳聚糖(CMCH)共混水凝胶;研究了PVA与CMCH的配比、辐照剂量、温度以及pH值对PVA/CMCH共混水凝胶性能的影响.实验发现,PVA与CMCH在辐照剂量为40 kGy、配比为w(PVA)/w(CMCH)=5/1的条件下可得到强度较好的PVA/CMCH共混水凝胶,该水凝胶具有一定的温度和pH敏感性:在5~20℃时具有较高的溶胀率,温度在20℃以上溶胀率较低;水凝胶在pH<4.0和pH>6.0时溶胀率均较大,而当pH为4.0~6.0时溶胀率较小.     

pH敏感的聚(L-谷氨酸)-交联聚丙烯酸水凝胶的合成与性能研究

通过在聚L-谷氨酸侧链部分接枝甲基丙烯酸2-羟乙酯得到含有双键的聚(L-谷氨酸),将其与丙烯酸共聚得到由聚(L-谷氨酸)侧链接枝并交联聚丙烯酸的pH敏感水凝胶.研究水凝胶在不同pH的缓冲溶液中的溶胀性、溶胀动力学,并通过SEM观察水凝胶的微观结构.结果表明,水凝胶在低pH环境下的溶胀率明显低于高pH环境中的溶胀率,不同...     

pH敏感性P(AM-AA-co-C8PhEO10Ac)水凝胶溶胀动力学及其对茶碱的控释

以丙烯酰胺(AM)、丙烯酸(AA)和丙烯酸辛基酚聚氧乙烯醚酯(C8PhEO10Ac)为单体,采用自由基交联共聚法合成了具有pH敏感性的P(AM-AA-co-C8PhEO10Ac)水凝胶.研究了pH、单体配比对凝胶溶胀性能、溶胀动力学和退溶胀动力学的影响.初步探讨了模拟胃液(pH=1.4)、肠液(pH=7.4)中水凝胶对茶碱的控释情况.结果表明:凝胶具有高溶胀、退溶胀速率和良好的pH敏感性等特征;水凝胶的扩散行为在pH=7.4的缓冲溶液中为非Fickian扩散模式;载药凝胶在模拟肠液中对药物的累积释放率明显大于胃液中的累积释放率,其中n(C8PhEO10Ac)∶n(AM)∶n(AA)为1∶20∶30的载药水凝胶对茶碱的累积释放率最大.     

环糊精改性羧甲基纤维素水凝胶的制备和对香兰素的封装

本文通过反相悬浮聚合的方法,在碱性条件下制备了多组环糊精改性的羧甲基纤维素水凝胶,以香兰素为模型物考察了吸附和封装性能。实验结果显示,水凝胶有着优良的吸附与释放性能,在环境pH为11.0时,其最高平衡溶胀率为1765.1%,当环糊精与羧甲基纤维素的原料比增加时,其平衡溶胀率降低。改性水凝胶对香兰素有着出色的封装能力,对香兰素的封装率可以达到95.8%。吸附后的聚合物水凝胶也有着优良的释放率,在中性条件下最大释放率可以达到93.9%,有着优良的重复使用性。香兰素吸附动力学属于准二级吸附动力学,其吸附常数K为0.0401,Q_e为0.3273,相关系数R₂为0.9853。研究结果对香兰素等对光、空气或其他外界因素敏感的物质在工业中的应用具有指导意义。     

多孔聚N-异丙基丙烯酰胺水凝胶的制备与缓释性能

以N-异丙基丙烯酰胺(NIPA)、N,N-亚甲基双丙烯酰胺(MBA)和聚乙二醇(PEG)为原料,以60Co-γ射线为放射源制备了快速响应聚N-异丙基丙烯酰胺(PNIPA)多孔水凝胶。用红外光谱分析了水凝胶的结构,并测定了水凝胶的溶胀动力学、退溶胀动力学和平衡溶胀率。结果表明,PEG分子仅在聚合交联过程中充当成孔剂,不参与反应,反应后可被除去;水凝胶具有明显的温度敏感性,成孔剂的添加提高了水凝胶的溶胀性能和LCST。选用阿司匹林为模型药物,对水凝胶的药物缓释性能进行了初步研究。     

Swelling behaviors of thermoresponsive hydrogels cross-linked with acryloyloxyethylaminopolysuccinimide

Based on a biodegradable cross-linker, acryloyloxyethylaminopolysuccinimide (AEA-PSI), a series of looser cross-linked poly(N-isopropylacrylamide-co-acrylic acid) [P(NIPAAm-co-AAc)] hydrogels were prepared, and their water content, swelling/deswelling kinetics, and the morphology of the gels were investigated. The swelling behaviors of AEA-PSI-cross-linked P(NIPAAm/AAc) hydrogels were investigated in Dulbecco’s phosphate-buffered saline (pH = 7.4), in the distilled water, and in the simulated gastric fluids (pH = 1.2), respectively. The water contents of the hydrogels were controlled by the monomer molar ratio of NIPAAm/AAc, swelling media, and the temperature. In the swelling kinetics, all the dried hydrogels exhibited fast swelling behavior, and the swelling ratios were influenced significantly by the amounts of AEA-PSI and AAc content. The deswelling kinetics of the hydrogel were independent of the content of AAc and cross-linker. Lastly, the morphology of the hydrogels was estimated by the field scan electron microscopy.     

Swelling Behavior of Semi‐Interpenetrating Polymer Network Hydrogels Based on Chitosan and Poly(acryl amide)

Semi‐interpenetrating polymer networks (semi‐IPNs) composed of chitosan and polyacrylamide (PAAm) hydrogels have been prepared, and the effect of changing pH, temperature, ionic concentration, and applied electric fields on the swelling of the hydrogels was investigated. The swelling kinetics increased rapidly, reaching equilibrium within 60 min. The semi‐IPN hydrogels exhibited a relatively high swelling ratios of 385%–569% at T=25°C. The swelling ratio increased with decreasing pH below pH=7 due to the dissociation of ionic bonds. The swelling ratio of the semi‐IPN hydrogels was pH, ionic concentration, temperature, and electric field dependent. Differential scanning calorimetry (DSC) was used to determine the volume of free water in the semi‐IPN hydrogels, which was found to increase with increasing PAAm content.     

pH快速响应PNIPAAm-co-PAAc水凝胶的制备及溶胀动力学

pH快速响应PNIPAAm-co-PAAc水凝胶的制备及溶胀动力学;N-异丙基丙烯酰胺;pH敏感性;溶胀历史     

Studies on syntheses and dynamic swelling of pH-sensitive macroporous poly(N-isopropylacrylamide-co-acrylic acid) hydrogels

A series of macroporous poly(N-isopropylacrylamide-co-acrylic acid) (PNIPAm-AA) hydrogels with different composition were synthesized by free-radical copolymerization in the presence of silica particles as a pore generating agent. The equilibrium swelling ratio, half swelling time and dynamic swelling kinetics of the copolymers previously soaked in different acidic buffer solutions were investigated at pH 7 at 25°C. Experimental results revealed that the swelling rate of the macroporous hydrogels was greatly increased compared to conventional hydrogels due to existence of the macroporous structures. It was found that the swelling history of previously putting in acidic solutions copolymers had strong influence on their dynamic swelling kinetics especially for the samples ranging in composition between 30 and 70 mol % of NIPAAm, whereas the swelling history had little influence on the equilibrium swelling ratio of copolymers. The swelling pattern exhibits sigmoid swelling curves. This is explained by an autocatalytic mechanism. The hydrogen bonding dissociation plays an important role in the dynamic swelling behavior.     

Synthesis and characterization of temperature-sensitive and biodegradable hydrogel based on N-isopropylacrylamide

Based on a biodegradable cross-linker, N-maleyl chitosan (N-MACH), a series of Poly(N-isopropylacrylamide) (PNIPAAm) and Poly(N-isopropylacrylamide-co-acrylamide) [P(NIPAAm-co-Am)] hydrogels were prepared, and their lower critical solution temperature (LCST), swelling kinetics, equilibrium swelling ratio in NaCl solution, and enzymatic degradation behavior in simulated gastric fluids (SGF) were discussed. The LCST did not change with different cross-linker contents. By altering the NIPAAm/Am molar ratio of P(NIPAAm-co-Am) hydrogels, the LCST could be increased to 39°C. The LCST of the hydrogel was significantly influenced by the monomer ratio of the NIPAAm/Am but not by the cross-linker content. In the swelling kinetics, all the dry hydrogels exhibited fast swelling behavior, and the swelling ratios were influenced by the cross-linker content and NIPAAm/Am molar ratios. Equilibrium swelling ratio of all the hydrogels decreased with increasing NaCl solution concentration. In enzymatic degradation tests, the weight loss of hydrogels was dependent on the cross-linker contents and the enzyme concentration.      

Synthesis and properties of pH and temperature sensitive P(NIPAAm-co-DMAEMA) hydrogels

In order to investigate the influence of the continuous alkylamide sequence having pH sensitive unit on the temperature sensitivity of poly(N-isopropylacrylamide) (PNIPAAm)-based hydrogel, a monomer, N-(2-(dimethylamino) ethyl)-methacrylamide (DMAEMA), having an ethylamide group as well as an aliphatic tertiary amino group, was designed and synthesized. Hydrogels based on NIPAAm and DMAEMA were prepared via free radical polymerization. The resulted P(NIPAAm-co-DMAEMA) hydrogels were characterized in terms of maximum swelling ratio, swelling kinetics, temperature response kinetics, and effect of pH. The data obtained show that the novel hydrogels have the strong desire to respond to external temperature and pH stimuli. Importantly, because the P(NIPAAm-co-DMAEMA) hydrogels have the continuous alkylamide sequence containing isopropylamide pendant groups from PNIPAAm and ethylamide pendant groups from PDMAEMA, the incorporation of DMAEMA moiety not only provides the pH sensitivity, but also maintains the thermal properties of P(NIPAAm-co-DMAEMA) hydrogels, even as the molar percentage of DMAEMA moiety reaches 14 mol%.     

Synthesis and Characterization of Hydrogels Based on Gamma Radiation Copolymerization of N‐isopropylacrylamide and Ethylene Glycol Dimethacrylate Monomers

Hydrogels based essentially on N‐isopropylacrylamide (NIPAAm) and different ratios of ethylene glycol dimethacrylate (EGDMA) monomer were synthesized by gamma radiation copolymerization. The thermal decomposition behavior of NIPAAm/EGDMA hydrogels was determined by thermogravimetric analysis (TGA). The effect of temperature and pH on the swelling behavior was also studied. The results showed that the ratio of EGDMA in the comonomer feeding solution has a great effect on the yield product, gel fraction and water content in the final hydrogel. In this regard, it was observed that the increase of EGDMA ratio decreased these properties. The TGA study showed that all the compositions of NIPAAm/EGDMA hydrogels displayed higher thermal stability than the hydrogel based on pure PNIPAAm hydrogel. The swelling kinetics in water showed that pure PNIPAAm and NIPAAm/EGDMA hydrogels reached equilibrium after 6 h. However, NIPAAm/EGDMA hydrogels show swelling in water lower than pure PNIPAAm. The results showed that the swelling character of pure PNIPAAm and NIPAAm/EGDMA hydrogels was affected by the change in temperature within the temperature range 25–40°C, and showed a reversible change in swelling in the pH range 4–7 depending on composition.     

辐射交联制备改性CMC水凝胶的溶胀行为研究

利用丙烯酰胺 (AAm)接枝改性纤维素 ,然后进行羧甲基化反应得到高取代度的丙烯酰胺 羧甲基纤维素钠 (AAm CMC Na) .对该材料进行γ射线辐照制备出新型改性CMC水凝胶 .研究了这种水凝胶的溶胀动力学、交联动力学以及温度、pH值和无机盐浓度对水凝胶溶胀行为的影响 ,并与CMC Na水凝胶进行了比较 .结果表明 ,该水凝胶和CMC Na水凝胶相比 ,优点在于辐照交联所用的剂量下降 ,而且所需的CMC浓度减少 .AAm CMC Na水凝胶的溶胀度随温度升高而增大 ,在pH为 6～ 8范围内达到最大值 ,并随无机盐浓度与吸收剂量增加而下降 ,表现出较好的温度敏感性和pH敏感性 ,可望作为吸水材料和水保持剂     

干燥方式对含直链淀粉半互穿网络水凝胶溶胀和降解的影响

以4,4′-二甲基丙烯酰胺基偶氮苯(BMAAB)为交联剂,制备了丙烯酸-丙烯酰胺-甲基丙烯酸酯共聚物和直链淀粉半互穿网络水凝胶.以冷冻干燥和空气干燥两种方式,研究了干凝胶在pH2.2和pH7.4时的溶胀和降解性能.结果表明采用两种干燥方式的凝胶在不同pH的介质中都遵循二级溶胀动力学.凝胶内部水的扩散均为非Fickian机理,即扩散和链松弛协同作用的机理.但经历冷冻干燥的凝胶其扩散机制占优势.在pH=7.4的介质中,冷冻干燥凝胶的平衡溶胀比(SR)显著增大,而在pH=2.2时则无明显变化.扫描电镜(SEM)和降解实验发现,在结肠内容物的作用下,冷冻干燥凝胶在5天内降解率可达35.3%,而空气干燥凝胶的降解率为28.1%,表明冷冻干燥的方式可在一定程度上促进凝胶在结肠环境下的降解.     

羧甲基纤维素与丙烯酸接枝共聚凝胶的溶胀动力学及过溶胀平衡特性的研究

采用接枝共聚合成了羧甲基纤维素钠、丙烯酸与N,N′-亚甲基双丙烯酰胺的交联凝胶, 研究了这类凝胶在不同pH值的缓冲溶液中的溶胀行为, 发现在酸性介质中凝胶的溶胀动力学行为表现出过溶胀平衡特性(overshooting effect), 即凝胶先发生溶胀到最大值, 然后再逐渐消溶胀到平衡. 这种现象可归因于凝胶溶胀过程中羧基之间通过氢键所产生的协同物理交联. 较之凝胶的组成, 缓冲溶液的pH值对过溶胀平衡现象的影响更为显著. 前者是因为凝胶羧基的总摩尔分数并不随两组分结构单元摩尔数的改变而改变, 羧基之间通过氢键形成的物理交联程度在交联剂摩尔分数接近的条件下变化不大; 后者是由于溶液的pH值显著影响凝胶羧基的质子化程度, 进而影响羧基之间通过氢键形成的物理交联程度. 凝胶在酸性介质中的溶胀过程符合E. Díez-Peña等提出的溶胀动力学定量模型, 理论曲线与实验数据有较好的相关性. 凝胶在pH≥5.0的缓冲溶液中的溶胀不产生过溶胀平衡现象, 这一现象归因于完全离子化的羧基之间不能形成物理交联. 凝胶的溶胀过程遵循Schott二级溶胀动力学.