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本文简要介绍了腌制食品中N-亚硝胺类化合物的种类及特性,重点综述了气相色谱法、气相色谱-质谱法、液相色谱法、液相色谱-质谱法和胶束电动毛细管色谱法等技术在腌制食品中N-亚硝胺类化合物分析中的应用进展(引用文献39篇)。 相似文献
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磁性壳聚糖-聚丙烯酸微球的制备及表征 总被引:12,自引:0,他引:12
壳聚糖通过与丙烯酸接枝共聚制得壳聚糖聚丙烯酸悬浮液,在铁磁流体(Fe3O4)与聚乙二醇(分散剂)存在下通过与戊二醛交联,制备了磁性壳聚糖聚丙烯酸微球。用扫描电镜、红外光谱对合成的高分子微球进行形貌观察和结构表征,并进行了元素分析和磁性能测试,研究了磁性微球对牛血清白蛋白(BSA)的吸附效果。结果表明,合成的磁性微球外表呈球形,粒径为100~400nm;当Fe含量为2.47%时,磁性微球的饱和磁化强度约为1.30emug,磁矫顽力为280Oe,磁化率为2.16×10-4(常温下),属于顺磁性材料;其对BSA有较好的吸附效果,饱和吸附量约为400mgg。 相似文献
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铟参与的4-溴-1,1,1-三氟-2-丁烯与α-烷氧基醛亚胺的烯丙化反应以中等的产率和高非对映选择性生成了高烯丙基胺3.从甘油醛亚胺和4-溴-1,1,1-三氟-2-丁烯反应制备的高烯丙基胺3g出发,以7步反应24%的总产率合成了4,4,4-三氟-γ-羟基缬氨酸11. 相似文献
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固体酸催化合成邻苯二甲酸二戊酯的研究 总被引:2,自引:0,他引:2
以苯酐和正戊醇为原料,采用自制的固体酸SO4^2-/SiO2、SO4^2-/Fe2O3、SO4^2-/SnO2及SO4^2-/TiO2作为催化剂合成邻苯二甲酸二戊酯(DAP),分别考察固体酸催化剂的种类、固体酸催化剂的用量、醇酐比、反应时间等因素对合成DAP产率的影响。实验结果表明,其优化的工艺操作条件为:苯酐0.1mol,固体酸催化剂SO4^2-/SiO2 1.7g,醇酐比2.4:1,带水剂二甲苯20mL,反应时间3.5h,其产品收率达91.3%以上。SO4^2-/SnO2作为该反应的催化剂具有催化活性高、寿命长、可多次重复使用、产物易纯化分离且产品色泽浅等优点,可望代替传统的浓硫酸作催化剂应用于DAP的合成。 相似文献
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以蘑菇为原料提取甲壳素,并制备壳聚糖。通过滴定法测定由蘑菇制备的壳聚糖的脱乙酰度,用乌氏黏度计测定了比浓黏度,并研究了制备工艺中加热温度和碱处理时间对它们的影响,计算了其产率;对以蘑菇为原料制取的甲壳素、壳聚糖的结构通过红外光谱进行表征。结果表明,在碱处理时间为24h、加热温度为100℃的条件下有较高的脱乙酰度;比浓黏度随着碱处理时间的延长、加热温度的增加都呈下降的趋势;壳聚糖产率为1.69%。制取的甲壳素、壳聚糖的红外光谱图表明,甲壳素在蘑菇中主要是以α-构型存在,α-构型甲壳素在浓碱中经过脱乙酰后生成β-构型的壳聚糖。 相似文献
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A series of side chain liquid crystalline polymers(SCLCPs) containing triphenylene(Tp) units in the side chains, denoted as PMTS(without spacer) and PMTn S(n = 2, 3, 4, 6, which is the number of the methylene units between the main chain and Tp moieties in the side chains), with different lengths of spacers were synthesized through conventional free radical polymerization. The chemical structures of the monomers were confirmed by 1H/13C-NMR, and the phase behaviors were examined by differential scanning calorimetry(DSC), polarized optical microscopy(POM) and wide-angle X-ray diffraction(1D and 2D WAXD). The molecular characterization of the polymers was performed with 1H-NMR, gel permeation chromatography(GPC) and thermogravimetric analysis(TGA). The phase behaviors of the polymers have been investigated by a combination of techniques including DSC, POM, 1D and 2D WAXD. The results showed that the length of spacer has significant effects on the LC phase behavior of polymers. For PMTS and PMT2 S, they displayed the columnar phase developed by the Tp moieties and the main chain as a whole due to the strong coupling effect of the Tp moieties and the main chain. For the PMT3 S, PMT4 S and PMT6 S, they formed the symmetry hexagonal columnar(ΦH) phase owing to the decoupling effect. All of these indicated that the "decoupling effect" or "coupling effect" depended on the length of spacers, leading to the different LC phase formation mechanism. 相似文献