染毒水样中神经性毒剂水解产物的分析

考察了对水中6种神经性毒剂水解产物固相萃取的萃取剂,洗脱剂等因素对萃取率的影响,以LC－CN小柱为萃取剂,1％冰醋 甲醇溶液为洗脱剂,测得萃取回收率为59．7％－100％,相对标准偏差为1．4％－7．2％,采用气相色谱和色质联用－选择离子检测法对水解产物三甲基硅烷（TMS）衍生物进行分析鉴定,水中水解产物最低检测浓度为0．002－0．02mg/L。为今后水中神经性毒剂未知样品分析提供了简便,快速的分析方法。     

毛细管电泳法测定猪体组织中甜菜碱含量

建立了毛细管电泳法快速测定猪体组织中甜菜碱含量的方法。甜菜碱首先转化为苯甲酰甲基酯后直接上样测定。pH为 3 .0的磷酸缓冲溶液使甜菜碱酯化物和甜菜碱结构类似物酯化物之间以及酯化物和酯化剂之间都能很好地分离 ,这也省去了反应混合液的前处理。该法标准曲线的线性范围为 4～ 6 0 0mg L ,相关系数r为 0 .9999,最低检测限为 1mg L ,相对标准偏差为 2 .2 %～ 4.7% ,标准加入回收率为 95 9%～ 98.4%     

用制备型高效液相色谱分离石油亚砜的馏分

用经典硅胶柱色谱法对石油亚砜 (PSO)进行预分离。PSO被分成 4个馏分 (分别记为PSO1,PSO2 ,PSO3和PSO4)。所用的流动相及洗脱顺序 :苯、二氯甲烷、甲醇 二氯甲烷 (1∶1体积比 )、甲醇。经预分离后 ,PSO中的亚砜成分主要富集在馏分PSO3和PSO2中。用高效制备液相色谱法对这两馏分作进一步的分离和纯化。PSO2的色谱条件是 :色谱柱 μ BondapakC1 85 7mm× 30 0mm ;流动相为二氯甲烷、环己烷、甲醇混合液 ,收集经纯化后的组分PSO2g2 2 ;PSO3被分离为 7个馏分 ,其色谱条件为 :色谱柱μ BondapakC1 85 7mm× 30 0mm ;流动相为 70 %～ 10 0 %甲醇 水 ;梯度洗脱其流量为 80mL min ;进样量为80mL 次 (PSO3用 70 %甲醇 水稀释 10倍 )。取其中较纯的馏分PSO3c ,PSO3e ,PSO3g作进一步的色谱纯化 ,色谱条件为C1 8半制备色谱柱 7.8mm× 30 0mm ;流速 :2 0mL min ;流动相 :甲醇 水 70∶ 30 ,V/V(PSO3c)″80∶2 0 ,V V(PSO3e) ;85∶15 ,V V(PSO3g) ;检测器UV 2 5 4nm     

HPLC法分析生物样品的前处理技术

介绍HPCL法分析生物样品的前处理技术。     

长链烷基二苯基膦—铑配合物催化烯烃氢甲酰化反应研究

研究了烷基二苯基膦-铑配合物RhCl(CO0(n-C8H17PPh2)2(1)和RhCl(Co)(n-C12H25PPh2)2（2）对1-辛烯氢甲酰化反应的催化性能。结果表明,配合物1比2具有更高的催化活性,而配合物2对生成正构醛的选择性更好;当催化剂浓度或膦/铑比增加时,配合物2催化成正构醛的选择性呈下降趋势,显示出与以PPh3为配体时的不同的性能。     

Study on the Synthesis and Biodegradation of Aliphatic Polyester

With the increasing use of one-off plastic products, the environmental pollution resulted from the plastic waste has become more and more serious. So many scientists have focused their attention on developing biodegradable polymers to substitute the traditional unbiodegradable polymers in the manufacture of disposable products. Thus the plastic waste can be treated by landfill or composting technique. It has been found that aliphatic polyesters possess better biodegradability compared with oth…     

In-situ separation of the matrix for the direct determination of traces of chromium, cobalt, and nickel in titanium dioxide powder by electrothermal atomic-absorption spectrometry with slurry sampling

A novel method has been developed for the direct determination of traces of chromium, cobalt, and nickel in TiO2 powder; it entails slurry sampling and electrothermal atomic-absorption spectrometry (ETAAS) with a polytetrafluoroethylene (PTFE) slurry (6% m/v) as fluorinating reagent. The factors which could affect the vaporization of the matrix and analytes were studied in detail; the fluorinating vaporization behavior of the analyte both in the slurry and in solution were also investigated. Owing to the in-situ separation of the matrix, the matrix influences were reduced significantly. The proposed method has been applied to the direct determination of traces of chromium, cobalt, and nickel in high-purity TiO2 powder without chemical pretreatment. Under the optimum experimental conditions the detection limits of the analytes (Cr, Co, and Ni) were 1.9 ng g(-1), 2.4 ng g(-1) and 5.4 ng g(-1), respectively, the relative standard deviations (RSD) were 3.4% (n=6, c=7.0 ng mL(-1)), 2.9% (n=6, c=0.70 ng mL(-1)), and 7.6% (n=6, c=4.0 ng mL(-1)), again respectively, and the characteristic masses for Cr, Co, and Ni were 8.4 pg/ 0.0044A, 9.3 pg/0.0044A, and 40.0 pg/0.0044A, respectively.     

Synthesis,crystal structure,and properties of [Cu(LH)]2[M(mnt)2] [M = Ni or Cu; H2L = 3,3′-(1,3-propanediyldinitrilo)-bis(2-butanone oxime); mnt2− = maleonitriledithiolate] complexes containing bridging cyano groups

Interesting complexes containing a mnt^2– bridge, based on the reaction of [M(mnt)₂]^2– [M = Ni or Cu] with [Cu(LH)]⁺, have been prepared and characterized by e.s.m.s., i.r and u.v–vis. spectroscopic techniques and by electrochemistry. The complexes show weak antiferromagnetic interactions between magnetic centers. The X-ray analysis of the molecular structure of [Cu(LH)]₂[Ni(mnt)₂] has been completed. It structurally features the CN group of mnt^2– which can act as a bridging ligand between two transition metals.     

正、负离子表面活性剂混合体系溶致液晶生成的相行为

研究了烷基(C8,C12,C14)三甲基溴化铵、烷基(C12,C14)溴化吡啶与烷基(C8,C12)硫酸钠混合体系溶致液晶形成的条件与结构的变化.在高浓度的水溶液中,随着正、负离子表面活性剂摩尔比接近于1,液晶结构由六角相过渡为层状相.表面活性剂非极性链长改变,对相行为影响显著,短碳链的正、负离子表面活性剂混合体系,在等摩尔比时,体系为层状液晶或立方液晶为主,夹杂少许沉淀.随碳链增长,两类表面活性剂间的静电吸引效果表现为生成沉淀的摩尔比例范围变宽,沉淀量增多,共存的液晶相减少,甚至消失.若只改变正离子的极性头基,季胺盐比吡啶盐与烷基硫酸盐的作用要强,形成不溶物的混合摩尔比例范围更宽.     

High-performance liquid chromatographic analysis for the characterization of triterpenoids from Ganoderma

A high-performance liquid chromatographic (HPLC) analysis of triterpenoids from Ganoderma is developed and validated in an attempt to explore a way to differentiate a number of species of the genus Ganoderma. Results show that 64 samples examined in this study could be divided into 18 groups based on characteristics of the HPLC pattern of triterpenoids. This result also conforms with those of the morphological examination and the interfertility test by di-monokaryotic mating. The HPLC analysis of triterpenoids further reveals that differentiation among samples from three different regions each of the two species G. lucidum and G. tsugae is workable. Even then, an incorrect designation is found for two of the groups of samples that were originally classified as G. resinaceum but showed different morphological characteristics and mating incompatibility. In conclusion, an HPLC analysis of triterpenoids is a simple and easy way to differentiate among different species of the genus Ganoderma.