高选择性催化光度法测定痕量铜的研究

本文研究了在柠檬酸介质中 ,铜催化抗坏血酸还原甲基红的新指示反应及动力学条件 ,并测定了反应的活化能 ,建立了高选择性测定痕量铜的新方法。铜的测定线性范围为 0— 140 ng/ 2 5m L,检出限为 1.2 1× 10 -11g/ m L ,用于铝合金及人发样中铜的测定 ,结果令人满意。     

新型酸性离子液体[hmim]hso4中合成乙酸酯

制备了一种新型B rφnsted酸性离子液体[Hm im]HSO4,用于乙酸与醇的酯化反应,通过简单的相分离就可以实现产物乙酸酯与离子液体的分离。考察了温度、时间、物料配比、离子液体用量等因素对乙酸与正丁醇的反应的影响,得出反应的最佳条件为:反应温度110℃,反应时间2 h,酸醇摩尔比为2,酸性离子液体[Hm im]HSO4与醇的体积比为1,乙酸正丁酯的产率为97%。离子液体重复使用5次,乙酸正丁酯的产率均大于94%。利用核磁共振、红外和元素分析测试技术对酸性离子液体[Hm im]HSO4的结构进行了表征,是以一水合物的形式存在。测定了不同浓度[Hm im]HSO4水溶液的酸强度数据,结果表明,其酸性明显高于酸性离子液体[Hm im]CF3COO的酸性。     

酸化交联蒙脱土催化合成乙酸苄酯

酸化交联蒙脱土催化合成乙酸苄酯;酸化交联蒙脱土;催化;乙酸苄酯     

高取代度玉米醋酸酯淀粉的制备与表征

高取代度玉米醋酸酯淀粉的制备与表征;取代度;醋酸酯淀粉;玻璃化转变温度;结晶度     

Preparation of Well‐Defined PVOH/C60 Nanohybrids by Cobalt‐Mediated Radical Polymerization of Vinyl Acetate

Summary: Poly(vinyl acetate) chains end‐capped by a Co(acac)₂ complex [PVAc‐Co(acac)₂] were prepared by bulk cobalt‐mediated radical polymerization (CMRP) of vinyl acetate and used for grafting fullerene (C60) with four PVAc arms at low temperature (30 °C). A photoactive water‐soluble poly(vinyl alcohol)/C60 nanohybrid was then prepared by hydrolysis of the PVAc arms of the nanohybrid. Because of photoactivity and very low cytotoxicity, this type of water‐soluble nanohybrid is very promising for the photodynamic cancer therapy.

Strategy for the preparation of PVAc/C60 nanohybrid and hydrolysis of PVAc/C60 nanohybrid into PVOH/C60 nanohybrid.     

耐热性星形甲基丙烯酸甲酯共聚物的合成

195 6年 ,Swarzc等 [1,2 ] 报道了一种没有链转移和链终止的阴离子聚合技术 ,提出了“活性”聚合的概念 . 1 995年王锦山等 [3]发现和提出原子转移自由基聚合 ( ATRP)以来 ,活性自由基聚合就成了高分子合成领域的研究热点 ,并合成出各类指定结构的聚合物 [4～ 12 ] .具有环状结构的 N -环己基马来酰亚胺 ( NCMI)被广泛地用于与甲基丙烯酸甲酯 ( MMA)自由基共聚合制备耐热性有机透明材料 [13,14 ] ,但NCMI的引入将降低聚合物的加工流动性 ,若能利用多官能团引发剂如四溴甲基苯实现含 NCMI单体结构的可控 ATRP共聚合 ,合成出星形耐…     

混合硝酸镍和醋酸镍制备的催化剂的特征和催化加氢抗硫性能

使用直接还原镍盐前体[Ni(NO_3)_2/γ-Al_2O_3, NiAc_2/γ-Al_2O_3或Ni (NO_3)_2-NiAc_2/γ-Al_2O_3]和镍氧化物前体的方法制备催化剂,研究了它们的 表面特征和甲苯加氢抗硫性能。还原镍盐得到的催化剂比还原其焙烧成的氧化物制 得的催化剂金属的还原和分散程度高。Ni(NO_3)_2-NiAc_2/γ-Al_2O_3分解得到的 氧化物前体的TPR在约415 ℃出现了较小数量的块状NiO的还原峰;而Ni(NO_3)_2- NiAc_2/γ-Al_2O_3的TPR中镍盐分解成氧化物时的耗氢量变小。用氢溢流的概念和 镍盐分解时的耗氢量可以将TPR的结果和金属的分散性关联起来。在镍盐前体催化 剂上甲苯的加氢具有较高的活性,而两种盐摩尔比为1：1时,盐前体催化剂反应活 性出现了一极大值,同时盐和氧化物前体催化剂都给出了抗硫性能的极大值。     

以(真空紫外光+紫外光)-共振加强式多光子游离法侦测交叉分子束之甲基生成物

用(真空紫外光+紫外光)-共振加强式多光子游离法侦测甲基自由基.为证明此法之灵敏度,实验用交叉分子束反应F+CH4(CD4)→HF(DF)+CH3(CD3),其绝对灵敏度可达107/cm3.由所得之光谱,更精确地得到两个里德堡态3d2E″及3d 2A1′之光谱系数.     

Predissociation Dynamics of B State of Methyl Iodide with Femtosecond Pump-probe Technique

The predissociation dynamics of B Rydberg state of methyl iodide is studied with femtosecond two-color pump-probe time-of-°ight spectra at pump pulse of 400 nm and probe pulse of 800 nm. The dominant product channels are the CH3I+ and CH3+ formation. The time-dependent signals for CH3I+ and CH3+ ions are obtained. Both of the signal curves can be ˉtted by biexponential decays with time constants of ?1 and ?2, ?1 is assigned to the lifetimes of high Rydberg states, which can be accessed by absorbing three 400 nm pump pulses and ?2 re°ects the dynamics of B Rydberg state, which is accessed with two pump pulses. The lifetime of B Rydberg state is determined to be about 1.57 ps, which is incredibly consistent with the previous studies. The results were interpreted as a multiphoton dissociative ionization processes.     

Studies on the Scavenger Activities of Salicylaldehyde and Methyl Salicylate Against Hydroxyl Radical

Introduction Active oxygen species have a carcinogenesis effect, and can cause mutation, cardiovascular diseases, inflammation and aging, etc. Hydroxyl radicals generated either from a radiolysis of water contained in biological tissues or from a redox cycling implicated in a wide range chemical toxicants, have been recognized as the extremely reactive oxidative species which can attack DNA bases and sugar moiety of nucleotides and lead to radiation or chemical injury of DNA and other biological targets[1-5].Therefore, In recent years many pharmacologists and biologists are looking for effective free radical scavengers, especially naturally occurring antioxidants of oxidizing free radicals as drugs.