高效液相色谱法测定精对苯二甲酸中微量杂质

建立了高效液相色谱法（HPLC）同时测定精对-苯二甲酸（PTA）中微量杂质4-羧基苯甲醛（4-CBA）、对-甲基苯甲酸（P-TOL）和苯甲酸（C7H6O2）含量的方法。采用的色谱柱为Shim-PackWAX-1柱，流动相为0.1mol/L NH3H2PO4 6%CH3OH，(pH4.5)，检测波长为254nm。PTA中微量杂质4-CBA、P-TOL和C7H6O2的含量分别为0.59-235.20mg/kg、4.52-392.00mg/kg和0.28-24.55mg/kg时线性关系良好，其线性相关系数分别为0.9998、0.9997和0.9999。苯甲酸加样平均回收率99.03％，RSD0.37％。     

高效液相色谱法测定细胞分裂素的方法研究

利用高效液相色谱法测定水稻愈伤组织和微生物发酵产品中的玉米素，二氢玉米素，核糖基玉米素和核糖基二氢玉米素。样品用抽提液抽提，经Ｂｉｏ－Ｒｅｘ７０弱阳离子交换柱和ＸＡＤ－７／Ｓｅｐ－ｐａｋＣ１８复合柱净化和富集后，直接用ＨＰＬＣ分析，方法回收率达９４％～８４％，相对标准偏差小于３．３％。最低检测限达２．０ｎｇ。     

Enantioseparation of Novel Chiral Tetrahedral Clusters on a Chiral Stationary Phase (CSP) by High Performance Liquid Chromatography

In recent years, the synthesis of chiral tetrahedral clusters has been studied extensively and various types are accessible , which are a kind of organometallic compounds with greatly growing interest due to their potential application to asymmetric reaction catalysts. As an efficient     

环境样品中痕量邻苯二甲酸酯的分离与测定

本文研究了以小粒径（１０－４０μ）硅胶柱色谱分离富集、反相高效相色谱分析测定大气颗粒物、土主植物样品中痕量邻苯二甲酸酯的方法，方法操作简单，回收率高，空白值低，利用该方法分析了部分环境样品中邻苯二甲酯酯含量。     

Macroporous poly(methyl methacrylate) produced by phase separation during polymerisation in solution

Polymethyl methacrylate (PMMA) sponges were obtained by polymerization in a solution with monomer/ethanol ratios up to 20:80. The material obtained after the elimination of the solvent present a homogeneous distribution of dispersed pores up to a monomer/ethanol ratio lower than 40:60. For higher ethanol contents in the reacting mixture, the morphology of the sponge corresponds to a network of PMMA microparticles, leaving large empty spaces leading to highly porous structure. The monomer/ethanol ratio during polymerization has a large influence on the porosity, thermal, and mechanical properties of the material and, for large solvent contents, on the size of the polymer microparticles.     

机械球磨与反应烧结合成Sr2CeO4发光体的研究

Sr₂CeO₄ phosphor was synthesized by mechanical milling and reactive sintering in this work. The solid state reaction of SrCO₃and CeO₂ (2∶1) started at about 850 ℃ and completed at 1 000 ℃ for about 4 h. Two types of formation mechanism of Sr₂CeO₄ were proposed. When the starting powder mixture was fired above 1 000 ℃, the unstable intermediate phase SrCeO₃was developed, which then reacted with SrCO₃to form the final product Sr₂CeO₄, however, SrCO₃and CeO₂ converted directly to Sr₂CeO₄ at a lower temperature. The XRD results showed the crystal structure of Sr₂CeO₄ was orthorhombic. The emission spectra displayed a broad band with maximum at about 465 nm. The mechanical milling of starting power mixture and the sintering temperature had no effect on this emission spectra.     

球等鞭金藻生长抑制物的高效液相色谱分析

采用硅烷化键合相C18反相色谱柱,以V(乙腈)∶V(水)=63∶37为流动相,0.3mL/min恒流洗脱,检测波长UV-235nm等条件,建立了一种利用反相高效液相色谱分析球等鞭金藻生长抑制物的粗提物、Sepha-dexG-15凝胶柱层析分离获得的3个组分、硅胶G薄层层析分离获得的4个组分等8个分离纯化产物中具有抑制活性组分的方法,并确定了具有抑制活性组分的保留时间。通过乙酸乙酯萃取球等鞭金藻老化培养液,得到了具有抑制活性的粗提物;粗提物经SephadexG-15凝胶柱层析分离后,获得3个具有抑制活性的组分;通过硅胶G薄层层析对此3个组分进行分离,在获得的4个组分中,仅有一个组分具有抑制活性。将粗提物与SephadexG-15凝胶柱层析分离获得组分的高效液相色谱进行对比,确定具有抑制活性组分的保留时间在3.827~6.002min范围内;通过与硅胶G薄层层析分离获得组分的高效液相色谱的再次对比,发现仅具有抑制活性的组分Ⅱ(Rf为0.637)中出现保留时间为4.875min的峰,并且相同保留时间的峰同样出现在具有抑制活性的粗提物以及SephadexG-15凝胶柱层析分离获得的3个组分的高效液相色谱中。结果表明:在优化的实验条件下,高效液相色谱中保留时间为(4.872±0.005)min的峰对应的组分正是具有抑制活性的组分。     

Improvement of basic performances of a nickel-metal hydride battery

To develop a sealed-type nickel-metal hydride battery for use in portable equipment or in electric vehicles, investigations were conducted on negative electrodes using AB₅-type hydrogen storage alloy and positive electrodes. For the cycle life performance of the battery, alkaline treatment of the alloy and the substitution of more than 50% to the alloy with Co were effective. For the positive electrode, zinc as a solid solution in the nickel positive electrode obviously prevented γ-NiOOH from being formed in the charging process of β-Ni(OH)₂ and suppressed the migration of the electrolyte solution in the separator to the active material of the positive electrode. Also, hydrophobic treatment of the surface of the alloy was effective to prevent the elevation of the battery internal pressure of the battery in high rate charge.     

Fe-Ni-B-O纳米合金的合成及其催化制氢性能的研究

Preparation and catalytic performance of Fe-Ni-B-O nano-alloy having crystal-palpus structure has been studied. Black powder was synthesized by reducing mixture solution of Fe²⁺, Ni²⁺ with KBH₄ as reducing agent and polyethylene glycol as dispersant. Fe-Ni-B-O nano-alloy of crystal-palpus structure was obtained after hydrogen reduction of black powder. TEM shows that crystal-palpus length is 200～400 nm, diameter is 2～4 nm. The analytic results indicate that the total content of Fe and Ni is 86.6%, B is 5.08%. The alloy exhibits excellent catalytic performance. Hydrogen generation rate can approach 100% especially when pH is 8.     

克菌丹和灭菌丹的气相和液相色谱分析方法

采用气相色谱法和高效液相色谱法两种方法分别对克菌丹和灭菌丹进行定性定量分析。气相色谱法均以邻苯二甲酸二戊酯为内标物,色谱柱采用3%OV-101 chromosorb AW DMCS 150~177μm,1 m×3 mm玻璃柱,柱温为195℃,汽化温和检测温均为230℃,克菌丹和灭菌丹的回收率分别为99.2%~100.7%和98.8%~99.9%;方法相对标准偏差分别为0.46%和0.59%。高效液相色谱法中使用Nova-PaK C18250 mm×4.6 mm色谱柱,以V(甲醇)∶V(水)=85∶15为流动相,检测波长为225 nm。克菌丹和灭菌丹的回收率分别为99.5%~100.6%和98.9%~99.7%;方法相对标准偏差分别为0.68%和0.51%。