分散剂对RF凝胶掺钛过程的影响

 以间苯二酚、甲醛和经分散的纳米钛粉为反应前体，利用物理掺杂方法研究了掺钛RF凝胶的制备工艺，并在凝胶过程中以zeta电位 粒径分布测试仪对溶液的粒径分布进行分析测试。实验发现六偏磷酸钠对纳米钛粉的分散性最好，掺杂后凝胶时间明显缩短；分散剂种类和用量对凝胶时间有较大影响，其用量为纳米钛粉量的50~100倍为宜。     

明胶包埋黑根霉菌丝体对水中Pb^2＋吸附性能的研究

本文研究了明胶包埋黑根霉菌丝体的包埋条件及包埋后对水中Ｐｂ~（２＋）的吸附作用。结果表明，包埋比例为６／１（Ｗ／Ｗ），交联剂甲醛用量为２５％，凝胶化温度为４０℃，ＰＨ＝１０．０为包埋反应的最佳条件。包埋后的饱和吸附量可达１２１．２ｍｇ／ｇ，比未包埋黑根霉下降１０．８％。吸附平衡时间延长至８００分钟。ｐＨ值对吸附量有较大影响，ＰＨ＝４．０时，吸附最佳。升高温度有利于吸附。流速对动态吸附有很大影响。ＨＮＯ３和ＮａＯＨ可以对吸附剂进行解吸与再生，解吸率在９４％以上。明胶包埋后黑根霉具有较好的物理性能，断裂压缩强度为１２８．１Ｎ／ｃｍ２。     

羧甲基壳聚糖/明胶共混膜的结构表征与吸湿保湿性

壳聚糖通过羧甲基化得到水溶性N，O-羧甲基壳聚糖，并将其配制成4Wt％水溶液，与4Wt％明胶水溶液共混，成功制得了羧甲基壳聚糖／明胶共混膜。采用红外光谱、x射线衍射、扫描电镜对共混膜进行结构表征，结果表明，共混膜中羧甲基壳聚糖和明胶分子间存在着较强的相互作用及良好的相容性。通过共混膜的力学性能测试，发现当羧甲基壳聚糖含量为20％时，共混膜的抗张强度达到最大值(75MPa)，分别比单独的羧甲基壳聚糖(45MPa)和明胶(43MPa)提高了66．7％和74％。经过吸湿和保湿性能测试，发现当羧甲基壳聚糖含量为80％时，吸湿率和保湿率分别为33．4％和69．2％，比单独的明胶膜分别提高了1．8倍和2．1倍。     

明胶中α组分含量对明胶/羟基磷灰石复合材料力学性能的影响

选用α组分含量分别为20.5%,41%和50%的A、B、C 3种明胶作为原料,采用同时加入法制备了明胶/羟基磷灰石(HAP)复合材料.通过对干态复合物膜拉伸性能的测试和对比,发现,明胶α组分含量的变化对复合材料的弹性模量影响较大,而对拉伸强度和断裂伸长率的影响则相对较小,但总的来说,三者均随α组分含量的增加而增大.其中,α组分含量最高的复合物C的拉伸强度为86.40 MPa,弹性模量为2682.35 MPa,断裂伸长率为8.65%.另外,对复合物C基本性质的表征结果表明,该材料具有类似于自然骨的组成和结构性质,因此有望成为一种具有优异力学性能的骨替代材料.     

Mechanical properties and transition temperatures of crosslinked-oriented gelatin

 This second part of a systematic study of the properties of crosslinked-oriented gelatin involves the effects of orientation and water content on the glass transition temperature T _g and on the melting behavior. The samples were the same as those in the preceding study, and their transition temperatures were determined by both differential scanning calorimetry and dynamic mechanical thermal analysis. The crosslinked gelatin which had been room-conditioned showed two transition temperatures: the lower one was attributed to T _g of the water-plasticized gelatin, and the higher one was interpreted as T _g of dried gelatin superimposed by melting. A rather unusual situation arose because of the fact that the T _g and melting temperatures T _m (217 and 230 ^°C, respectively) are so similar. Using water as plasticizer not only decreases T _g but produces imperfect crystallites which melt below the T _g of the system. The presence of the amorphous phase in the glassy state would presumably make it essentially impossible to define a melting point or crystallization temperature in the normal manner, as an equilibrium between crystalline and amorphous phases. Received: 8 October 1996 Accepted: 2 November 1995     

明胶改性聚醚醚酮微载体的制备、表征及性能

微载体因其具有较高的表面积/体积比等优点可以大大提高哺乳动物细胞培养效率,被广泛应用于生物制药和组织工程等领域。 但微载体多为一次性使用,不耐高温,且主要依赖进口,价格昂贵,因而限制了其国内的应用和推广。 聚醚醚酮(PEEK)材料具有良好的生物相容性、化学稳定性及耐高温等特性,是一种优异的微载体材料,但存在熔点高,加工方法单一和生物惰性等缺陷。 本文以浓硫酸为溶剂,乙醇溶液为萃取剂,采用气流辅助滴注/相分离法,将PEEK制备成448 μm左右,尺寸均匀的微球;经氨丙基三乙氧基硅烷(APTES)处理,获得表面氨基化修饰的PEEK微球(PEEK-N);进一步,以N,N'-羰基二咪唑(CDI)为活性中间体,将明胶分子接枝到PEEK-N微球表面,获得表面明胶修饰的PEEK微载体(PEEK-G)。 对材料的物理化学性质、表面接枝量进行表征;并通过体外细胞实验评估其细胞毒性、细胞粘附效率和细胞增殖能力。 结果显示,通过该方法制备成功了3种不同明胶接枝含量的PEEK细胞微载体(PEEK-G1,PEEK-G2,PEEK-G3),其中明胶含量较高的PEEK-G3毒性最低,细胞粘附和增殖效果最理想。     

天然植物高分子药用胶囊的研究与发展

讨论了天然植物高分子药用胶囊的最新研究与发展,介绍了目前的主要研究成果并提出展望.不仅从化学结构、流变和相变等基础理论方面探讨了各类植物药用胶囊的特性和研制中所遇到的问题,同时对各种胶囊制备设备与工艺的发展及应用中的技术改进进行了综述分析.传统明胶胶囊生产工艺的应用已有160多年的历史,目前植物胶囊生产设备和工艺多是建立在传统明胶胶囊生产的基础上.研究植物胶囊材料的流变和凝胶性能以尽量满足传统明胶的设备与工艺是当今急需解决的难题之一.近年来,随着人们对淀粉结构和改性方法的深入研究(尤其是将淀粉基可生物降解材料的制备技术与传统食品科学的研究成果有效结合),应用高分子科学理论和方法提高淀粉基材料的加工性能,力学性能与稳定性的研究有了突破性进展,为淀粉胶囊的研制提供了理论和技术上的有力支持.使用传统塑料加工的挤出加工法制备植物胶囊,是植物胶囊研究中的重大突破和创新.从原材料来源的充足性和价格上考虑,淀粉是最有潜力替代传统胶囊的原料之一.     

Development of fish gelatin-based artificial fish baits incorporating bioattractants from seafood processing waste

The study dealt with evolving an artificial fish bait by incorporating bioattractant concentrates derived from seafood processing wastes by enzymatic hydrolysis namely fish waste concentrate (FWC), squid waste concentrate (SWC), and shrimp processing concentrate (SPWC). They were characterized based on amino acid content and presence of different functional groups using FTIR. Among them, SWC was found to have the highest amino acid content of 60.85mg/100 mg followed by FWC (42.21mg/100 mg) and SPWC (24.82mg/100 mg). The developed artificial fish baits were subjected to protein leaching, solubility in seawater besides testing for acceptability by the red snapper. The study revealed that the bait incorporated with SWC at 3% level was found be the most ideal, with the protein leaching rate of 24.82 mg/g/h, solubility rate of 36.6 mg/g/h and the attractability score of 29/30. The amino acid leaching rate was 3.11 mg/h/100 mg and it was found to contain five amino acids such as glycine, proline, glutamic acid, alanine and serine. The study revealed that the hydrolyzed squid waste concentrate can be incorporated at 3% (w/w) with fish gelatin based biomatrix during gelation to prepare artificial bait.     

Energy structure and absorption spectra of colloidal CdS nanocrystals in gelatin matrix

We investigate the energy structure of colloidal CdS nanocrystals by measuring the UV–vis absorption spectra. Nanocrystals were synthesized by sol–gel method in a gelatin matrix in the size range from 2.5 to 3.9 (±0.2) nm. In order to interpret the UV–vis absorption spectra we calculate the energy spectrum of electron quasi-stationary states using the model of open nanocrystal as well as the hole stationary spectrum in a two-band approach. It is shown that the main contribution to the absorption spectrum is made by interband transitions 1S_3/2→1S_e and 1P_3/2→1P_e, and its shape is determined by the size distribution of nanoparticles. For this system the estimated values of the effective masses of the heavy hole and light hole are 1.44m₀ and 0.28m₀, respectively.     

作为细胞微载体的明胶基缓释微球的制备

用改良的乳化冷凝法制备载牛血清蛋白(BSA)的大粒径明胶微球. 结果表明, 明胶水溶液的质量分数为25%、水相与油相体积比3∶20、搅拌速度300 r/min、交联剂用0.1 mL质量分数为25%的戊二醛、 表面活性剂用0.1 g span-80为制备平均直径约250 μm明胶微球的理想条件. 所制备微球的后处理方法不同, 则明胶微球的表面形貌也不同, 细胞粘附率不同. 空白明胶微球在体外可以完全降解, 载BSA的明胶微球对BSA具有良好的缓释性, 释放时间可长达30 d. 显微镜观察成纤维细胞在明胶微载体上生长良好.