共查询到18条相似文献,搜索用时 46 毫秒
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以磷钼酸(H3PMo12O40)为催化剂,通过2,3,5-三怪醌与异植醇在室温下缩合得到DL-α-生育酚(维生素E),发现H3PMo12O40是合成DL-α-生育酚的一种高活性、易于分离和能够重复使用的催化剂。 相似文献
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用疏水性离子液体1-丁基-3-甲基咪唑六氟磷酸([BMIM]PF6)作粘合剂制备了离子液体修饰碳糊电极(IL/CPE)。采用循环伏安法(CV)研究了维生素E(vitamin E,VE)的氧化产物生育酚红在IL/CPE和未修饰碳糊电极(CPE)上的电化学行为,结果表明生育酚红在IL/CPE上氧化过程更易于进行,峰电流响应ip也明显增加,表明IL/CPE对生育酚红的氧化还原反应具有良好的电催化作用。同时测定了电极过程的动力学参数:电荷转移系数α=0.8746,扩散系数D=1.65×10-3cm2/s,电极反应速率常数kf=6.64×10-2cm/s。采用方波伏安法(SWV)发现生育酚红氧化峰电流与其浓度在1.53×10-4mol/L~8.39×10-7mol/L范围内呈线性关系,检出限为1.58×10-8mol/L。该法可用于VE实际样品的分析测定。 相似文献
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以硝酸作氧化剂,将非电活性的维生素E氧化为具有电活性的醌型化合物-生育酚红,采用循环伏安法研究了生育酚红在碳糊电极上的电化学行为,探讨了阳离子表面活性剂的增敏效果、电极反应机理和表面活性剂的增敏机制。试验结果表明:在乙醇-硝酸(69+31)电解质溶液中,在一定量的阳离子表面活性剂十八烷基三甲基氯化铵存在时,生育酚红在碳糊电极上,具有一对可逆的氧化还原峰,峰电位差为30 mV,维生素E的浓度在1.6×10~(-8)~4.0×10~(-6)mol·L~(-1)范围内与其峰电流呈线性关系,检出限(3S/N)为4.0×10~(-9)mol·L~(-1)。该阳极溶出伏安法应用于分析维生素E药品,回收率在92.9%~110.2%之间。 相似文献
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以离子液体为催化剂,由维生素E经两步酯化反应合成了聚乙二醇1000(PEG1000)维生素E琥珀酸酯。以离子液体1-(N',N'-二甲胺乙基)-3-甲基咪唑四氟硼酸盐为催化剂、1,2-二氯乙烷为助溶剂、维生素E与琥珀酸酐摩尔比为1:1.2,在80 ℃条件下反应4 h,维生素E琥珀酸酯(TAS)的产率为90%。以1-丙磺酸基-3-甲基咪唑硫酸氢盐/甲苯为反应体系,TAS与PEG1000摩尔比为1:2,在100 ℃下反应5 h,PEG1000维生素E琥珀酸酯(TPGS)收率为91%。 相似文献
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探讨R-3-奎宁醇的合成工艺。通过手性合成的方法,以3-奎宁酮盐酸盐为原料,经CBS催化剂催化还原得R-3-奎宁醇。收率可达到92%以上,ee值可达98%以上。该合成路线操作步骤简单、收率高,具有工业应用价值。 相似文献
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单纯形优化高效液相色谱法分离测定维生素E的各种异构体 总被引:2,自引:0,他引:2
本文用计算机辅助单纯形优化高效液相色谱法分离、测定了精炼植物油副产物中维生索E的各种异构体。探讨了单纯形优化法指导高效液相色谱选择分离的实验条件,并编写了实用的计算机程序。实验结果表明,本法可使比较困难的条件选择工作有章可循,从而提高工作效率。 相似文献
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David H. Setiadi Gregory A. Chass Ladislaus L. Torday Andras Varro Julius G. Papp 《Journal of Molecular Structure》2002,594(3):7080-172
Tetralin, chroman as well as its' S and Se containing congeners were subjected to ab initio (RHF/3-21G and RHF/6-31G(d)) and DFT (B3LYP/6-31G(d)) computation. Molecular geometries and the activation energies for ring inversions were determined with full geometry optimizations. 相似文献
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Rinaldo Cervellati Stanley D. Furrow Emanuela Greco Kerstin Höner Maria Livia Venturi 《Helvetica chimica acta》2010,93(5):837-846
The malonic acid (MA)‐based oscillating Briggs–Rauscher reaction (BR) in batch mode has been shown to be sensitive to various hydrophilic polyphenol antioxidants. Several of these have been shown to cause cessation of oscillations for a period of time before a restart occurs. The length of time before oscillations restart is related to the type of antioxidant and its concentration. Procedures have been devised to use this method as a tool for measuring antioxidant activity from pure compounds and from extracts of natural sources. The antioxidant activity has been related to the reaction of the antioxidants with HOO. radicals present in the oscillating system. Vitamin E (α‐tocopherol), a typical highly lipophilic antioxidant containing an phenolic OH group, is soluble in acetone that also is a suitable substrate for the BR reaction. Perturbations of a highly concentrated acetone‐based BR oscillator by acetonic solutions of vitamin E were studied. The inhibitory effects were found similar to those provoked by hydrophilic polyphenols in the MA‐based oscillator, but to obtain reasonable inhibition times, the concentration of vitamin E must be at the mM level instead μM . However, there is a region of concentrations where there is a nearly linear relation between concentration and inhibition time. A comparison with a hydrophilic diphenol (2,6‐dihydroxybenzoic acid) in the acetone‐based oscillator showed that the inhibitory reaction is much slower in this system than in the MA one. We were able to model the perturbations by vitamin E assuming its reaction with HOO. radicals by using the FCA mechanism previously reported with some little modifications. 相似文献
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Coenzyme Q10 (CoQ10) is the prevalent ubiquinone in human organism, largely present in its reduced form, ubiquinol (QH2), to which the antioxidant, free radical scavenger activity is ascribed by many authors. However, some studies indicate that also the oxidized form presents some effect in preventing the cellular oxidative stress. In this article four in vitro chemical test methods (TEAC, FRAP, DPPH, and BR) were used to assess the free radical scavenging power of CoQ10, QH2, and vitamin E. The results showed that CoQ10 is almost ineffective, while in three of the tests QH2 presents a higher antioxidant activity than vitamin E. From these results, it can be concluded that the interconversion CoQ10?QH2 leading to the prevalence of QH2 in biological tissues is responsible for the antioxidant action of coenzyme Q10 in living organisms. 相似文献