戊二醛蒸汽交联明胶材料的性能研究

利用戊二醛蒸汽对明胶材料进行交联改性。研究了交联反应时间对明胶材料力学性能、溶出性能和溶胀特性的影响。研究发现,随着交联时间的延长,交联反应从明胶瓣表面至内部逐步进行,由此可获得交联度呈梯度变化的明胶材料。研究结果表明,明胶材料的拉伸强度、模量和冲击强度随交联反应时间的延长而增加,而溶出速率和溶胀率随交联反应时间的延长而减小。蒸汽交联明胶材料的溶胀动力学不能用二次速率方程来描述。     

交联聚乙烯醇水凝胶对胆红素的吸附性能研究

本文采用反相聚合的方法以戊二醛为交联剂合成了珠状交联聚乙烯醇凝胶，并研究了它对胆红素的吸附性能。结果表明交联聚乙烯醇对胆红素的体外吸附率受到吸附剂的交联度、颗粒直径、溶液中白蛋白的浓度、吸附温度及离子强度的影响。该类吸附剂对胆红素具有良好的吸附动力学性能。     

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.     

室温交联型硅丙微胶乳的合成研究(1)硅烷单体对聚合稳定性和胶膜性能的影响

采用种子微乳液聚合工艺和单体半连续滴加法合成了室温交联型有机硅改性丙烯酸酯微胶乳，研究了硅烷单体种类和用量及其添加顺序等对聚合稳定和胶膜性能的影响。结果表明，使用含阻碍性铁新硅烷单体（C－1757）可明显抑制体系中的水解－缩合反应，提高聚合稳定性，而且随其用量增加，改性胶膜的交联密度增大，拉伸强度提高；延迟添加C－1757，可进一步提高聚合稳定性，但会降低胶膜的交联密度，拉伸强度先高后低，30／70处有一个最大值，所合成的硅丙微胶乳储存期可达长两年，与C－1757相比，硅烷单体A－174改性的胶膜具有更大的交联密度，而A－171改性的胶膜交联密度偏低，力学性能较差。     

碱催化PVA酯化交联膜的制备

在氢氧化钠催化条件下,将聚乙烯醇(PVA)与草酸(OA)酯化交联,制得了一种新的PVA-OA均质膜并利用红外光谱表征了交联膜的化学结构。考察了均质膜的耐水性能和机械性能,发现随着交联度的增加,其耐水性和拉伸强度增强,而断裂伸长率下降。将PVA与聚偏氟乙烯(PVDF)制成PVA/PVDF蒸汽渗透膜复合膜,利用乙醇-水混合物考察了其分离性能,结果表明PVA理论交联度在6%～7%时,其综合性能较优。     

原位交联明胶电纺纤维的制备工艺研究

提出一种原位交联工艺,用于一步制备交联明胶电纺纤维膜,克服目前该电纺膜交联工艺繁琐以及交联过程破坏纤维形态等缺点.通过一系列实验,找出明胶-三氟乙醇-戊二醛三元溶液体系的稳定电纺条件.所得的纤维直径在1μm左右,远大于单纺明胶的纤维直径.同时发现,在电纺过程中,由于纤维表面戊二醛迅速挥发,使得纤维形成"伪核壳"结构.利用流变仪对三元溶液交联速率进行分析,结果表明戊二醛加入明胶溶液后,体系黏度瞬间增大,10 min后维持稳定.最后,通过耐水性试验评价纤维膜交联效果,发现纤维膜有10%左右的溶解,但在水介质中仍可保持很好的纤维形态.     

含羧基交联型质子交换膜的制备及其性能

合成了一种含酯基的磺化聚合物,利用后水解的方法得到了含有羧基侧基的聚合物;将磺化聚合物与聚乙烯醇通过溶液共混,热处理后得到交联型的共混膜材料。 研究结果表明,膜材料的玻璃化转变温度(Tg)有明显的上升,证明了交联反应的发生;同时,膜的吸水率和溶胀率有一定的下降,力学性能和热稳定性也有一定的提升。 通过共价交联的方法,制备了综合性能优异的磺化聚芳醚质子交换膜材料。 在100 ℃,交联膜的质子传导率为0.072~0.065 S/cm,吸水率为51%~89%,溶胀率为19%~30%。     

明胶膜的性能研究进展

明胶膜具有良好的生物相容性和可降解性,并且其物化性质能被调节,因而应用比较广泛.本文综述了不同添加剂和制备条件对明胶膜的机械性能、阻隔性能、生物可降解性等的影响.通常增塑剂可以改善明胶膜的脆性,减小其机械强度和热稳定性.交联能有效提高明胶膜的机械性能和热稳定性,减缓明胶的降解速率.交联包括化学交联、生物相容性交联和物理交联.明胶与蛋白质、糖类、脂类复合,其性能得以改进,并且将明胶与高聚物共混、共聚改性,可以改善明胶膜的性能以满足不同领域的应用.     

壳聚糖交联膜结构及性能的研究

壳聚糖是一种天然生物高分子聚合物，是甲壳素脱乙酰化产物，具有很好的成膜特性．用一种金属离子把壳聚糖分子中的螫合基团络合保护后，用戊二醛交联，并在酸性条件下将该金属离子洗脱，得到了螯合基团依然保留的壳聚糖交联膜．对壳聚糖交联膜的结构及性能进行了研究．结果表明：金属离子有效地保护了壳聚糖分子上的络合基因，该膜的性能较好，对阴离子的选择透过性比较好，并将其应用于元素的分离．     

医用壳聚糖膜的制备和性能研究

研究了壳聚糖膜的制备方法和性能。探讨了壳聚糖浓度、甘油和戊二醛用量对壳聚糖膜性能的影响,并考察了膜的体外降解过程。结果表明w=．02的壳聚糖溶液成膜效果较好;甘油和戊二醛能王著改善壳聚糖膜的力学性能和尺寸稳定性能;溶茼酶-林格氏液中浸泡40d后膜的降解率为41．98％。满足引导组织再生材料的基本要求。该膜作为一种潜在的生物医用材料,将具有较广阔的应用前景。     

聚丙烯的交联

本文论述了聚丙烯的辐射交联、化学交联和二步法水交联的研究进展,特别对近年来获得成功的二步法水交联法中各种影响因素进行了介绍.     

Thermally reversible crosslinking of polystyrene via the furan–maleimide Diels–Alder reaction

Mixtures of maleimidomethylated polystyrene with difurfuryl adipate or with furfuryl alcohol-esterified poly[styrene-co-(maleic anhydride)] underwent thermally reversible Diels–Alder crosslinking. Reversal of crosslinking occurred rapidly at 150°C. The instability of the furfuryl group, however, limits the practicability of the reaction. © 1992 John Wiley & Sons, Inc.     

医用高分子水凝胶的设计与合成

作为一类重要的医用功能材料,高分子水凝胶可望在药物控释、软骨支架构建、活性细胞封装等方面获得广泛应用。综述了基于化学交联和物理交联的有关水凝胶的设计与合成方法,重点介绍了通过自由基共聚反应、结构互补基团间化学反应形成的化学交联水凝胶以及通过荷电相反离子问相互作用、两亲性嵌段或接枝共聚物疏水缔合、结晶与氢键相互作用形成的物理交联水凝胶。     

多官能团乙烯基单体原子转移自由基交联聚合机理

乙烯基单体;原子转移自由基交联聚合;聚合机理;交联网络     

Design and Fabrication of Highly Stretchable and Tough Hydrogels

Abstract

Stretchable and tough hydrogels have attracted a lot of attention due to their great potential in applications such as wound healing, drug delivery, tissue culture, etc. They can also be paired with electronic components to create artificial skin, wearable electronics, and patches. To promote the development of more hydrogels, we will summarize methods and materials that have been used to develop these gels, and then we will compare the performance of these gels in an aim to guide the future development of gels for superior performance, especially for specific applications.     

柠檬酸铝/HPAM凝胶的制备与DSC表征

利用DSC可以精确判断柠檬酸铝／HPAM体系在反应过程中是发生分子内交联还是发生分子间交联，以及体系的反应进行程度，分子间交联的体系产物在较高的温度下有分解，分子内交联的体系产物在较低的温度分解，在本体系和该测量条件下，分子间交联的产物和分子内交联的产物的分解温度界限为70℃，反应是否进行，可以通过体系产物的分解温度来判断，如果分解温度一直上升，说明体系还在反应，反之可认为反应终止。     

Reversible gelatin-based hydrogels: Finetuning of material properties

The present work reports on the synthesis and evaluation of a crosslinkable thiolated gelatin derivative. The effect of varying two parameters including the pH of the reaction buffer and the thiolating agent applied (i.e. N-acetylhomocysteine thiolactone versus Traut’s reagent) on the obtained modification degree was studied in a first part. The gelatin derivatives synthesized starting from N-acetylhomocysteine thiolactone and Traut’s reagent were characterized in depth using size exclusion chromatography and UV–VIS spectrophotometry. In a subsequent part of the present work, hydrogel films were prepared starting from the thiolated gelatin derivative developed using N-acetylhomocysteine thiolactone. The contributions of both the chemical and the physical crosslinking of the hydrogels developed were studied in depth using rheology, swelling experiments and texturometry. The results indicate that the physical structuring, inherent to gelatin, contributes to a large extent to the mechanical properties. However, the chemical crosslinking mostly determines the final hydrogel properties and can be controlled to a large extent. The gelatin-based gels are flexible, strong and transparent. A major advantage of disulfide-crosslinked hydrogels is the fact that the crosslinking is reversible. The latter could be interesting in view of future applications as cell carriers for tissue engineering.     

Release properties of chemical and enzymatic crosslinked gelatin-gum Arabic microparticles containing a fluorescent probe plus vetiver essential oil

Oil-containing gelatin-gum Arabic microparticles were prepared by complex coacervation followed by crosslinking with glutaraldehyde or transglutaminase. A fluorescent mixture, khusimyl dansylate (KD) as the fluorescent compound mixed to the vetiver essential oil, was used as oil model. The effect of the type of crosslinking of the coacervated gelatin-gum Arabic membrane, the physical state of microparticles, wet or freeze-dried and the type of release media, aqueous with surfactants, Sodium Dodecyl Sulphate (sds) or Tween 80 (tw) and anhydrous ethanol as organic media on the release rate of the KD from the microparticles, was experimentally investigated.It was shown that the oil was dispersed uniformly throughout the microparticles and the chemical crosslinked microparticles were more resistant to swelling, presenting smaller sizes after hydration. Also the crosslinking effect, transglutaminase or glutaraldehyde, could be confirmed by the integrity of the crosslinked gelatin-gum Arabic microparticles after incubation in the aqueous sds media, compared to complete dissolution of the uncrosslinked microparticles in this media.The cumulative fluorescent KD release from the gelatin-gum Arabic microparticles decreased in the following order of dissolution media: anhydrous ethanol > tw > sds and the wet microparticles have shown a faster KD release than freeze-dried ones. A mathematical model was used to estimate the diffusion coefficient (D). The chemically crosslinked gelatin-gum Arabic microparticles ensured a pronounced retard effect in the KD diffusion, presenting a D varying from 0.02 to 0.6 × 10⁻¹¹ cm²/s, mainly in an aqueous media, against D varying from 1.05 to 13.9 × 10⁻¹¹ cm²/s from the enzymatic crosslinked microparticles.     

Fracture mechanism of liquid‐crystalline epoxy resin systems with different phase structures

A liquid‐crystalline epoxy resin was cured at two different temperatures. The phases of the cured systems clearly showed isotropic and nematic polydomain structures, which depended on the curing temperature. The fracture toughness of the systems was measured, and the fracture mechanism was investigated with polarized IR measurements. The nematic polydomain structure system showed considerably higher fracture toughness than the isotropic structure. Moreover, both systems exhibited a reorientation of the network chains near the fracture surface during the fracture process, and the region of the network reorientation in the nematic polydomain structure system was larger than that in the isotropic structure system. © 2004 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 42: 4044–4052, 2004     

Influence of the loading rate on liquid‐crystalline epoxy resin systems

The fracture toughness of liquid‐crystalline epoxy systems, which had a nematic polydomain structure (domain size about 40 μm), with an increasing loading rate was evaluated. In this system, the fracture toughness dramatically decreased from 1.96 to 0.22 MN/m^3/2 with an increasing loading rate (0.1–5 mm/min). The network orientation near the fracture surface of different loading rate systems was investigated with polarized optical microscopy and polarized infrared spectroscopy. As a result, a large oriented region of mesogenic groups was observed near the fracture surface in the relatively low loading rate (0.1 and 0.5 mm/min) systems, but such a phenomenon was not observed in the high loading rate (2 and 5 mm/min) systems. These results showed that the high fracture toughness of the system at the low loading rate was due to the magnitude and region of the reorientation of the mesogenic groups in the fracture process and that high toughness could not be achieved at a high loading rate because the loading rate was too fast to allow orientation of the networks containing the mesogenic groups. © 2005 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 43: 1296–1302, 2005