固相萃取-气相色谱-质谱法测定化妆品中的硝基甲烷

建立了测定化妆品中硝基甲烷的固相萃取-气相色谱-质谱分析方法。膏霜、水剂、散粉、香波、唇膏等不同类型的化妆品样品加入甲醇或无水乙醇超声提取后,提取液高速离心处理,浓缩上清液,采用Sep-Pak Silica固相萃取柱净化,收集80%甲醇-20%二氯甲烷洗脱液,浓缩后经无水硫酸钠脱水,进行气相色谱-质谱定性及定量分析。选用HP-INNOWax石英毛细管柱(30m×0.25mm×0.25μm),程序升温,流速1.0mL/min;采用电子轰击电离源,选择监测离子(m/z30、46、61,其中61为定量离子),外标法定量。方法的平均回收率为83.0%～96.4%,相对标准偏差(RSD)为1.0%～5.3%,方法对硝基甲烷的检出限为0.2mg/kg。该方法准确、灵敏度高,可用于化妆品中硝基甲烷的测定。     

色谱-质谱联用技术测定化妆品中25种邻苯二甲酸酯

建立了乳液、霜、水以及油类化妆品中25种邻苯二甲酸酯类化合物的气相色谱-质谱和液相色谱-质谱测定方法。不同基质样品经不同方法净化处理后,采用气相色谱-质谱或液相色谱-质谱进行测定。气相色谱-质谱法采用DB-5MS毛细管色谱柱(30 m,250 mm×0.25μm),程序升温,选择离子模式同时测定21种邻苯二甲酸酯类化合物。液相色谱-质谱采用MN EC-C18色谱柱(4.6×100 mm,2.7μm),以甲醇和0.1%甲酸为流动相,梯度洗脱,流速0.7 mL/min,采用电喷雾电离(ESI+),多反应监测(MRM)模式同时测定24种邻苯二甲酸酯类化合物。25种邻苯二甲酸酯类化合物的线性关系良好,相关系数均大于0.999,回收率实验结果为89.3%~105.6%,RSD为0.4%~4.0%,检出限均小于0.3 mg/kg。方法适用于化妆品中邻苯二甲酸酯类化合物的全面筛查。     

气相色谱-串联质谱法快速测定禽蛋中203种农药及化学污染物残留

建立了禽蛋中203种农药及化学污染物残留的气相色谱-串联质谱(GCMS/MS)检测方法.样品用乙腈振荡提取,经ODS C18+Carb串联固相萃取柱净化,乙腈-甲苯(3:1,v/v)洗脱,洗脱液浓缩至0.5mL,氮吹至近干,加1mL正己烷超声溶解后,在气相色谱-串联质谱多反应监测(MRM)模式下进行测定.在1倍MRL(...     

固相萃取-同位素稀释-气相色谱-串联质谱法测定化妆品中的二甲苯麝香

建立了测定化妆品中二甲苯麝香的固相萃取-同位素稀释-气相色谱-串联质谱分析方法.膏霜、水剂、散粉、香波、唇膏等不同类型的化妆品样品加入甲醇经超声提取后,样品提取液高速离心处理,浓缩上清液,以Sep-Pak Silica固相萃取柱净化,收集二氯甲烷洗脱液,DB-5 MS(30 m × 0.25 mm, 0.25 μm)石英毛细管色谱柱分离后经NCI-GC-MS/MS多反应监测技术进行定性及定量分析.二甲苯麝香的方法定量限为5 μg/kg,在5～50 μg/kg范围内的3个添加水平的平均回收率为81.1%～86.9%,日内精密度均小于10%,日间精密度均小于12%.本方法准确、快速、灵敏度高,可用于化妆品的实际检验工作.     

气相色谱-离子阱质谱法测定蔬菜中9种有机磷农药的残留量

建立气相色谱-离子阱质谱法测定蔬菜中9种有机磷农药残留的方法.样品经乙酸乙酯提取、无水硫酸钠脱水、活性炭小柱净化,浓缩后通过气相色谱-离子阱质谱进行测定.9种有机磷农药的浓度在0.05～1.0μg/mL范围内与其对应的色谱峰面积具有良好的线性关系(r＞0.999).在3个不同添加浓度下的平均回收率为76.5%～101.2%,测定结果的相对标准偏差为3.9%～9.4%(n=7).该方法快速、准确、操作简便,能满足蔬菜中有机磷农药残留的检测要求.     

加速溶剂萃取-气相色谱-质谱法测定固体废物中酚类化合物

提出了气相色谱-质谱法测定固体废物中12种酚类化合物残留量的方法。样品以丙酮-二氯甲烷(2+3)混合液为萃取剂,经加速溶剂萃取仪提取后,在K-D浓缩装置上浓缩至1 mL,经硅胶柱净化后,用丙酮-二氯甲烷(1+9)混合液淋洗后再经K-D浓缩至1 mL,通过HP-5 MS石英毛细管色谱柱(30 m×0.25 mm,0.25μm)分离,采用电子轰击离子源选择离子监测模式进行质谱测定。12种酚类化合物的检出限(3S/N)在9.60～18.5μg.kg-1之间。以空白土壤样品为基体进行回收试验,测得回收率在74.7%～108.4%之间,测定值的相对标准偏差(n=7)均小于7.5%。     

皮革和纺织品中重叠峰偶氮染料的气相色谱-串联质谱检测技术

建立了气相色谱-串联质谱一次进样同时检测重叠峰偶氮染料的分析方法.皮革和纺织品中的偶氮染料用柠檬酸盐缓冲液提取,再用连二亚硫酸钠将其还原裂解为胺类物质,经液-液萃取、浓缩处理,所得残渣用甲醇溶解,通过VF-5ms色谱柱分离,采用串联质谱的多反应监测模式开设多通道存储子离子信息,进行定性、定量分析.实验结果表明:优化质谱分析条件后,气相色谱一串联质谱可进一步消除杂质干扰,分离共流出组分.大部分芳香胺3种浓度水平的加标回收率(n=6)保持在71%～94%之间,检测限为0.008～0.672μg/mL(S/N=3),相对标准偏差(n=6)小于11%,2～50μg/mL浓度范围内线性相关系数大于0.9917,满足禁用偶氮染料的分析要求.     

气相色谱-质谱法测定化妆品中的三氯叔丁醇

建立了测定化妆品中三氯叔丁醇的气相色谱-质谱分析方法.膏霜、水剂、散粉、香波、唇膏等不同类型的化妆品样品加入50％甲醇-无水乙醇或无水乙醇超声提取后,样品提取液高速离心处理,取上清液经无水硫酸钠脱水,进行气相色谱-质谱定性及定量分析.选用DB-1701(30 m×0.25 mm×0.25μm)石英毛细管柱,程序升温,流...     

固相萃取-气相色谱-串接质谱法测定化妆品中的人工合成硝基麝香类化合物

建立了一种用于不同化妆品中5种硝基麝香含量的气相色谱-三重四极杆串联质谱联用检测方法。化妆品中的硝基麝香通过丙酮/正己烷混合液超声提取,提取液经过浓缩,以CNWBOND Si固相萃取柱净化。再由气相色谱-三重四极杆质谱联用仪检测,氘代二甲苯麝香内标法定量。该方法对化妆品中5种硝基麝香的加标回收率在85.81%～104.92%之间,相对标准偏差(RSD)不大于5.75%,检测限分别达到2.0～10.0μg/kg。方法选择性好,能有效消除复杂基体干扰,可作为常见化妆品中硝基麝香类化合物含量检测的确证方法。     

气相色谱-质谱法测定含脂羊毛中有机氯和拟除虫菊酯杀虫剂残留量

采用气相色沓质谱联用法测定含脂羊毛中有机氯和拟除虫菊酯杀虫剂的残留量.样品经二氧化碳超临界萃取仪萃取后,所得提取液先后经过自动凝胶渗透色谱仪和Bond Elut Si固相萃取柱净化浓缩,所得洗脱液经氮气吹干后定容至1.0 mL,于气相色谱和气相色谱-质谱分析仪测定,外标法定量.11种有机氯和5种拟除虫菊酯杀虫剂的工作曲线呈较好线性关系,检出限(3S/N)在0.022～0.32 mg·kg-1之间,测定下限(10S/N)在0.073～1.07 mg·kg-1之间.在3个标准加入水平下进行了回收率和精密度试验,所得回收率在74.8%～135.2%之间,相对标准偏差(n=6)小于10%.     

大孔吸附树脂LX-20从发酵液中分离纯化维生素B_(12)

对从脱氮假单胞菌发酵液中分离纯化维生素B12的方法进行了研究。通过对11种弱极性大孔树脂进行筛选,确定LX-20为最适合树脂;对饱和树脂进行静态洗脱和动态洗脱,确定75%甲醇水溶液为洗脱剂,加入醋酸有利洗脱。利用薄层法对粗品进行精制。最终建立工艺路线为发酵液预处理后,LX-20吸附饱和,含醋酸的75%甲醇洗脱,经适当放大后结果仍好。此法洗脱高峰集中,产品纯度达90%,回收率可达98%以上,所得精品经HPLC检测纯度为97.8%。     

扑热息痛分子印迹聚合物应用于固相萃取的研究

以扑热息痛为印迹分子，丙烯酰胺为功能单体，乙二醇二甲基丙烯酸酯为交联剂合成了棒状的印迹聚合物；把其装于自制的固相萃取柱中，研究了以乙腈和水为溶剂时扑热息痛在柱上的保留行为；通过优化清洗、洗脱条件，使扑热息痛和与其具有相似结构的非那西丁、对叔丁基苯酚在柱上得到了很好的分离；同时也测定了治疗感冒的药物海王银得菲中扑热息痛的含量，其回收率可达94．3％．     

Microwave-assisted Suzuki reaction catalyzed by Pd(0)-PVP nanoparticles

Suzuki cross-coupling reaction was successfully carried out in ethanol utilizing a palladium colloidal solution stabilized by polyvinylpyrrolidone (PVP). High isolated yields (75-97%) to biaryls were obtained using different bases, aryl halides, and aryl boronic acids with a small loading of the palladium catalyst. Pd(0)-PVP nanoparticles with 3-6 nm of medium diameter were prepared from Pd(OAc)₂ in the presence of the stabilizer PVP using methanol as the reducing agent.     

多壁碳纳米管表面熊果酸印迹聚合物的制备及固相萃取

以聚乙烯醇修饰的多壁碳纳米管(MWCNTs)为基材,熊果酸(UA)为模板分子,甲基丙烯酸(MAA)为功能单体,乙二醇二甲基丙烯酸酯(EGDMA)为交联剂,采用表面印迹技术在碳纳米管表面合成对熊果酸具有良好选择性的分子印迹聚合物( MWCNTs-MIPs).讨论了不同摩尔比例的功能单体与模板分子合成印迹聚合物的效果,得出...     

Novel approach for the rapid determination of water-soluble organic acids in wine by co-electroosmotic flow capillary zone electrophoresis

An innovative protocol for the fast analysis of some organic acids in red wine by co-electroosmotic capillary zone electrophoresis and indirect UV detection using hexadimethrine bromide (HDB) as coating agent was proposed. The adsorption of HDB onto the capillary wall provided a stable electroosmotic flow and separation of small anions was carried out using background electrolytes containing no polymer additive. Low RSD% values (<3.6%) in terms of migration times and effective mobilities were obtained from the analysis of a mixture of nitrate and nitrite and of a mixture of organic acids. An experimental design approach was used to investigate the effects of temperature, separation voltage, and percentage of methanol added to the running buffer solution on the separation of the analytes. A faster method allowing the separation of the organic acids involved in the malolactic fermentation of wine was developed. Using a running electrolyte consisting of 35% (v/v) methanol in a solution of 22 mM benzoic acid at pH 6.10 adjusted with 1.0 M TRIS-base buffer, the separation of tartaric, malic, succinic, acetic, and lactic acids was feasible in less than 210 s. Application of the method to the quantification of the above-mentioned organic acids in Italian red wine samples is reported.     

改性聚偏氟乙烯接枝共混聚苯乙烯磺酸膜的制备与性能

将苯乙烯添加到溶有原硅酸钠改性的聚偏氟乙烯(PVDF)N-甲基吡咯烷酮溶液中, 以过氧化苯甲酰(BPO)作引发剂, 苯乙烯直接接枝到原硅酸钠改性的PVDF链上, 成膜后磺化制备了聚偏氟乙烯接枝苯乙烯(PVDF-g-PSSA)膜. 采用傅立叶变换红外光谱(FT-IR)、扫描电镜(SEM)、能量扩散X射线(EDX)和多功能材料实验机表征了膜的结构、形貌及硫和硅的分布、机械强度、溶胀度, 使用阻抗分析和气相色谱仪研究了苯乙烯含量(w)对PVDF-g-PSSA膜的质子导电性能和阻醇性能的影响. 结果表明, 苯乙烯加入后, 原硅酸钠改性的PVDF与苯乙烯进行接枝共聚反应, 苯乙烯磺化反应不只是在膜表面进行, 同时渗入到膜中进行, 机械性能得到了改善. 质子电导率(σ)随苯乙烯质量分数的提高而升高. Na4SiO4为8%和苯乙烯为20%的PVDF-g-PSSA膜, 在25 ℃时溶胀度仅为20.4%, 甲醇透过系数在10-7 cm2·s-1数量级上, 比Nafion115膜的低一个数量级. 该膜具有较高的选择性, 在直接甲醇燃料电池中具有良好的应用前景.     

Mesoporous Trimetallic PtPdRu Spheres as Superior Electrocatalysts

Mesoporous Trimetallic PtPdRu Spheres with well‐defined spherical morphology and uniformly sized pores were synthesized in an aqueous solution using ascorbic acid as the reducing agent and triblock copolymer F127 as the pore directing agent. These mesoporous PtPdRu spheres exhibited enhanced electrocatalytic activity compared to commercial Pt black, resulting in a ～4.9 times improvement in mass activity for the methanol oxidation reaction. The excellent electrocatalytic activity and stability are due to the unique mesoporous architecture and electronic landscape between different elements.     

Highly selective adsorption of methanol in carbon nanotubes immersed in methanol-water solution

The systems of open-ended carbon nanotubes (CNTs) immersed in methanol-water solution are studied by molecular dynamics simulations. For the (6,6) CNT, nearly pure methanol is found to preferentially occupy interior space of the CNT. Even when the mass fraction (MF) of methanol in bulk solution is as low as 1%, the methanol MF within the CNT is still more than 90%. For CNTs with larger diameters, the methanol concentrations within CNTs are also much higher than those outside CNTs. The methanol selectivity decreases with increasing CNT diameter, but not monotonically. From microscopic structural analyses, we find that the primary reason for the high selectivity of methanol by CNTs lies on high preference of methanol in the first solvation shell near the inner wall of CNT, which stems from a synergy effect of the van der Waals interaction between CNT and the methyl groups of methanol, together with the hydrogen bonding interaction among the liquid molecules. This synergy effect may be of general significance and extended to other systems, such as ethanol aqueous solution and methanol/ethanol mixture. The selective adsorption of methanol over water in CNTs may find applications in separation of water and methanol, detection of methanol, and preservation of methanol purity in fuel cells.     

Stabilization of electrospun poly(vinyl alcohol) nanofibrous mats in aqueous solutions

<正>The stability ofpoly(vinyl alcohol)(PVA) nanofibrous mats in water media was improved by post-electrospinning treatments.Bifunctional glutaraldehyde(GA) in methanol was used as a crosslinking agent to stabilize PVA nanofiber,but fiber twinning was observed frequently,and the highly porous structure of PVA nanofibrous mats was destroyed when the crosslinked fiber was soaked in water.To overcome this shortcoming,chitosan(CS) was introduced into the PVA spinning solution to prepare PVA/CS composite nanofibers.Their treatment in GA/methanol solution could retain the fiber morphology of PVA/CS nanofibers and porous structure of PVA/CS nanofibrous mats even if they were soaked in aqueous solutions for 1 month.Scanning electron microscopy(SEM),X-ray diffraction(XRD),thermal gravimetric analysis(TGA) and differential scanning calorimetry(DSC) were applied to characterize the physicochemical structure and thermal properties of PVA nanofibers.It was found that the water resistance of PVA nanofibrous mats was enhanced because of the improvement of the degree of crosslinking and crystallinity in the electrospun PVA fibers after soaking in GA/methanol solution.     

Characters of the Plateau of Methanol Increment in Frontal Analysis in Reversed Phase Liquid Chromatography

With insulin methanol-water,and the ion-pairing agent,hydrochloric acid and trifluroacetic acid(TEA),the character of the first plateau(FP)on the elution curve of frontal analysis in reversed phase liquid chromatography(RPLC)was investigated by on-line UV-spectrometry and identified with nuclear magnetic resonance(NMR) spectrometry and mass spectrometry.The profile of the FP is the same as that of a usual elution curve of methanol in frontal analysis(FA).When the insulin concentration was limited to a certain range,the height of the FP was found to be proportional to the insulin concentration in mobile phase and its length companying to shorten,The FP profile on the intersection of two tangents reflects the components of the microstructure in the depth direction of the bonded stationary phase layer and the desorption dynamics of the displaced components.The displaced methanol was quantitatively determined by NMR and on-line UV spectrometries.TFA with high UV absorbance can not be used as an ionpairing agent for the investigation of the FP in RPLC,but if can be used as a good marker to investigate the complicated transfer process of components in the stationary phase in RPLC.A stoichiometric displacement process between solute and solvent was proved to be valid in both usual and FA in RPLC.From the point of view of dynamics of mass transfer, the solutes can only contact to the surface of stationary phase in usual RPLC,while solute can penetrate into it in FA of RPLC.The solvation of insulin in methanol and water solution as an example indicating the usage of the FP in the FA was also investigated in this paper.