顶空气相色谱法快速测定浓缩菠萝汁中乙烯利的残留量

 利用乙烯利在碱性水溶液中受热能够快速分解成乙烯的特性 ,在样品中加适量的浓碱液 ,并在 70℃的条件下恒温加热。在选定的气相色谱条件下用顶空进样器抽取样品瓶中的上层气体 1mL进行气相色谱分析 ,以外标法定量。该方法的检测限达到 0 0 2 5mg/kg ,回收率为 92 %～ 98% ,相对标准偏差为 3 99%～ 7 94%。     

顶空气相色谱法测定粉状大豆磷脂中的丙酮残留量

 采用顶空气相色谱法测定大豆磷脂中的丙酮残留量。色谱柱为 2m× 3mmi d 内填GDX 10 3的不锈钢柱 ,柱温为 16 0℃。试验结果的相对标准偏差为 1 2 % ,在 2 5 0 μg/g～ 10 0 μg/g范围内 ,回收率为 98 4%～10 4%。     

顶空气相色谱法快速测定污水中氨氮含量

研究了一种基于化学反应型顶空气相色谱的快速检测污水氨氮含量新方法。首先在顶空瓶中用过量的甲醛与NH₄⁺反应产生等物质的量的强酸，再用NaHCO₃与新生成的酸反应产生CO₂，最后经过气相色谱定量CO₂，间接得出样品中氨氮的含量。结果表明，氨氮含量与气相色谱信号值之间存在良好的线性相关性，相关系数为0.999，定量限为0.786 mg/L（以N的质量浓度计），相对标准偏差小于2%，加标回收率在95%~105%之间。与国标纳氏试剂法相比，该方法测定结果的相对偏差在±5%以内。该方法检测效率高，适用于快速批量检测污水中氨氮的含量。     

顶空气相色谱法测定蔬菜水果中代森锰锌

建立了测定蔬菜和水果中代森锰锌残留量的顶空气相色谱法。代森锰锌在密闭容器中于70℃保温30min,被氯化亚锡-2.0 mol/L硫酸溶液酸解生成二硫化碳,二硫化碳气体经顶空自动进样器后用气相色谱(电子捕获检测器)检测。代森锰锌溶液的质量浓度在0.000~1.500μg/mL范围内与色谱峰面积有良好的线性关系,相关系数为0.9991,在蔬菜和水果不同基质中的回收率为98%~104%,相对标准偏差为1.52%~1.97%,检出限为0.05 mg/kg,定量限为0.10 mg/kg。该方法简单、快速、准确,适用于蔬菜和水果中代森锰锌残留检测分析。     

顶空气相色谱法测定盐酸托莫西汀中有机溶剂残留量的研究

建立了盐酸托莫西汀中有机溶剂残留量的顶空气相色谱分析方法.选用大口径HP-快速GC残留溶剂柱为分离柱,FID为检测器,外标法进行定量,并对顶空平衡温度、平衡时间、供试品溶液的制备方法对残留有机溶剂测定的影响进行了研究.甲醇、乙醚、正己烷、乙酸乙酯、四氢呋喃的线性范围分别为 0.41～8.10 μg/mL(r=0.9999)、0.15～3.00 μg/mL(r=0.9995)、0.20～4.01 μg/mL(r=0.9991)、0.32～6.35 μg/mL(r=0.9999)、0.36～7.11 μg/mL(r=0.9999);平均回收率范围96.30%～105.47%,精密度RSD(n=6)2.1%～3.7%;检出限分别为0.2、0.008、0.003、0.04、0.04 μg/mL.     

顶空气相色谱法测定地塞米松磷酸钠中有机溶剂的残留量

采用顶空气相色谱法测定地塞米松磷酸钠中甲醇、丙酮等有机溶剂的残留量。最佳平衡温度为50℃,最佳平衡时间为70min,甲醇、丙酮在3min内分离良好,线性相关系数分别为0、9996、0．9997,平均回收率分别为102．2％、101．3％,测定结果的相对标：住偏差分别为1．5％、1．8％（n=5）。     

用顶空气相色谱法测定西伐他汀中甲苯残留量

建立了用顶空ＧＣ法测定西伐他汀中甲苯残留量的方法,选用４０１有机担体作色谱柱,用５０ｇ／Ｌ十二烷基硫酸钠水溶液作溶剂。线性范围为０．５～４．０ｍｇ／Ｌ,ｒ＝０．９９８７;平均回收率为１０３．０６％。该法灵敏度高、简便、准确。甲苯的最低检测限为０．５ｍｇ／Ｌ。     

顶空气相色谱法测定羧甲基壳聚糖中氯乙酸残留量

采用顶空气相色谱法间接测定了羧甲基壳聚糖中氯乙酸的残留量。样品(0.2g)于顶空瓶中超声溶解在水3mL中,加入甲醇2.5mL,硫酸1.5mL,在70℃水浴反应40min使之酯化。按顶空条件进样,用HP-INNOWAX毛细管色谱柱分离,氢火焰离子化检测器测定。分别选择15min和85℃作为样品在顶空瓶中的平衡时间和平衡温度。氯乙酸的质量在0.2～20mg范围内与其峰面积呈线性关系,方法的检出限(3S/N)为5.6mg·L-1。方法用于实样中氯乙酸的测定,用标准加入法做回收试验,测得回收率在90.0%～92.0%之间,测定值的相对标准偏差(n=5)在0.7%～0.9%之间。     

顶空气相色谱分析中校正曲线的绘制

在水中痕量有机污染物的顶空气相色谱分析中,对于饮用水中挥发性卤代烃的分析常采用模拟体系—校正曲线法。由于顶空气相色谱分析的误差来源较多,故在绘制校正曲线时所测得的数据不完全通过一条直线。而且各数据点与直线的偏离程度较大,给校正曲的绘制带来困难。 近年来,数理统计方法在分析测试中得到了广泛的应用,本文采用最小二乘法求得回归方程,由此绘制校正曲线,并通过实例介绍了它的应用。 校正曲线的绘制方法 为了使绘制的校正曲线误差最小,即最符合真空情况,在统计学上称之为最优似然估计。最小二     

顶空气相色谱法测定输液器中环己酮残留

建立顶空气相色谱法测定输液器中环己酮残留量的分析方法。利用蠕动泵,以水为浸提介质,对输液器中的环己酮进行提取,采用顶空气相色谱法测定。色谱柱为Elite–5柱(30 m×0.32 mm,0.25μm),程序升温,初始温度为50℃保持3 min,以10℃/min升温至100℃,保持2 min,以20℃/min升温至170℃,保持2 min。FID检测器,检测器温度为250℃,进样口温度为230℃,分流比为5∶1,流量为2 m L/min,采用顶空进样。环己酮在0.494~98.700μg/m L范围内线性关系良好,相关系数r=0.999 9,方法定量限(S/N=10)为0.313μg/m L,测定结果的相对标准偏差小于1.0%(n=6),24 h模拟输液样品平均回收率为98.9%,循环浸提样品平均加标回收率为99.4%。该方法简单、快速、准确,可用于一次性使用输液器中环己酮残留量的检测。     

气相色谱法快速测定儿童驱蚊扣中菊酯类物质

建立快速测定儿童驱蚊扣中菊酯类残留的气相色谱法。以甲醇为萃取溶剂,萃取液经中性氧化铝固相萃取小柱净化,以乙酸乙酯为洗脱溶剂,洗脱液经旋转蒸发浓缩后,用电子捕获检测器检测,外标法定量。8种菊酯类化合物的质量浓度在0.05~1.00 mg/L范围内与色谱峰面积成良好的线性关系,相关系数均大于0.998,检出限为0.48~2.90μg/L。3个加标水平样品的平均回收率为93.8%~119.7%,测定结果的相对标准偏差为0.88%~6.43%(n=5)。该方法样品前处理简便,准确度和精密度良好,可用于驱蚊扣产品中菊酯类物质的检测。     

Nitro musks in cosmetic products—determination by headspace solid-phase microextraction and gas chromatography with atomic-emission detection

Summary The combination of headspace solid-phase microextraction with atomic-emission detection enables highly selective and sensitive determination of itro musk compounds in cosmetic products. Sample preparation is considerably simplified; there is no solvent extraction step. Enrichment is influenced by the type and amount of cosmetic product investigated. The lowest amount giving well detectable peaks is 1 mg musk compound per kg sample. Calibration curves obtained from spiked solutions of selected reference cosmetics in water show very good linearity. Relative standard deviations of peak areas from repeated measurements are usually <10%. Presented at the 21^st ISC held in Stuttgart, Germany, 15^th–20^th September, 1996     

离子色谱法测定土壤中植物激素乙烯利

土壤样品中的乙烯利在IonPac AS14分离柱（4mm）,（3．5mmol Na2CO3＋1．0mmol NaHCO3）／L淋洗液的淋洗条件下得到较好的分离。在0～10μg／mL的范围内标准曲线呈线性,检出限为（0．08μg／mL）。精密度好,10．266μg／mL时,保留时间的RSD=0．86％;峰高的RSD=1．1％;峰面积的RSD=1．0％。在此条件下,其它阴离子对乙烯利的检测不干扰,样品的加标回收率为85．6％～87．9％。     

冷冻去脂-固相萃取-气相色谱法快速测定水产品中硫丹、硫丹硫酸酯和溴氰菊酯残留量

建立了气相色谱快速测定水产品中硫丹、硫丹硫酸酯和溴氰菊酯的残留量的方法。样品经过V(丙酮)∶V(正己烷)=1∶1提取,冷冻去除脂肪后,再用中性氧化铝SPE柱净化,然后用GC-μECD测定,外标法定量。对样品的提取和净化进行了研究和优化。目标化合物在0.005~0.1 mg/L范围内线性良好,相关系数为0.9994~0.9997。在0.005~0.02 mg/kg范围内,平均回收率在78.3%~89.2%,相对标准偏差为4.2%~9.7%。方法可用于水产品中硫丹、硫丹硫酸酯和溴氰菊酯残留量的检验。     

高效液相色谱法同时测定肉制品中的6种食品添加剂

建立了同时测定肉制品中化学性质差异较大的6种常用食品添加剂的高效液相色谱(HPLC)分析方法。根据6种添加剂(苯甲酸(钠)、山梨酸(钾)、糖精钠、安赛蜜、诱惑红和胭脂红)的化学性质,对HPLC分析条件进行了详细的优化。结果表明:以ZORBAX Eclipse Plus C18柱(150mm×4.6mm,5μm)为分析柱,以甲醇和20mmol/L醋酸铵溶液(pH为6.9)为流动相进行梯度洗脱,在235nm波长下进行检测,可以在18min内完成6种添加剂的同时测定。在高、低两个加标浓度下,样品的回收率为80.7%～94.4%,相对标准偏差(n=3)为2.0%～7.1%。结果表明,该方法快速、准确,能够同时分析测定肉制品中上述6种食品添加剂。     

Indirect GC determination of ethephon in drinking water by a combination of reactive headspace sampling with adsorptive enrichment/thermal desorption

Summary An indirect GC method is described for the determination of Ethephon in drinking water on the basis of the headspace analysis of the ethylene formed from Ethephon. In order to reach the necessary detection limit, the entire volume of the static headspace distribution is transferred into a cold injection system (CIS). There, the ethylene is adsorbed on Carbosieve SIII at 10°C and, subsequently, desorbed at 300 °C. The water vapour included in the headspace is completely eliminated through the splitting system. By means of this technique, a detection limit of 0.05 g/l water was reached.     

Rapid determination of organochlorine pesticide residues in feeds by capillary gas chromatography

A simple micro-method is described for determination of 15 organochlorine pesticide residues in mixed feeds. Clean-up of the petroleum ether extract is by basic alumina minicolumn chromatography and quantitative identification is by capillary gas chromatography with electron capture detection. Cyanopropyl-polysiloxane chemically bonded fused silica capillary columns have been used to perform high resolution analyses in short time as well as to overcome possible interferences by PCBs. Recovery, repeatability, and detection limits of the proposed procedure are checked and results are also reported for non random samples of 180 feeds collected in Italy.     

顶空进样-气相色谱法检测乳制品中硫氰酸盐的含量

建立了顶空进样气相色谱法测定乳制品中硫氰酸盐含量的方法。乳制品中硫氰酸盐用水提取,然后用乙酸锌溶液沉淀蛋白质,将提取液离心,取上清液加入氯胺T将硫氰酸离子衍生为氯化氰,顶空进样,经BP10(14%氰丙基苯基聚硅氧烷)气相色谱柱分离,电子捕获检测器(ECD)检测,外标法定量,同时对衍生剂用量、顶空加热时间和保温温度进行了优化。结果表明: 硫氰酸盐在0.005～0.1 mg/L内线性关系良好,相关系数(r)为0.997,定量限(以信噪比(S/N)≥10计)为0.1 mg/kg。在1.0、2.0、10.0 mg/kg 3个添加水平下进行了回收率和精密度试验,加标回收率为90.0%～110.0%,相对标准偏差(RSD, n=10)为4.98%～7.89%。该方法操作简便、快速、稳定性好,可用于乳制品中硫氰酸盐的测定,能满足日常检测要求。应用该法对市售的18种乳制品进行了检测,发现所测乳制品皆含有硫氰酸盐,含量大约在0.5～10 mg/kg。     

Rapid determination of ethanol in fermentation liquor by full evaporation headspace gas chromatography

This paper reports a full evaporation (FE) headspace gas chromatographic (GC) method for rapid determination of ethanol in fermentation liquor. The data show that ethanol in the fermentation liquor was transferred to the vapor phase (headspace) almost completely within 3 min at a temperature of 105 °C when a very small volume (<50 μL) of sample was directly added to a sealed headspace sample vial (20 mL). The ethanol in the vapor phase was then measured by headspace GC using a flame ionization detector. The results show that the present method has an excellent measurement precision (RSD = 1.62%) and accuracy (recovery = 98.1 (±1.76%)) for the ethanol quantification in fermentation liquors. The method requires no sample pretreatment and is very simple and rapid.     

Rapid determination of furfural in biomass hydrolysate by full evaporation headspace gas chromatography

This paper reports a full evaporation (FE) headspace gas chromatographic (HS-GC) method for rapid determination of furfural in the biomass hydrolysate. The data show that a near-complete mass transfer of furfural in the sample from biomass hydrolysate to the vapor phase (headspace) was achieved within 3 min at 105°C when a very small (<40 μL) sample was added to a 20 mL headspace sample vial. The acid-catalyzed furfural decomposition under these conditions was negligible. The furfural in the vapor phase was then determined by HS-GC using a flame ionization detector. The results showed that the method has an excellent measurement precision (RSD<0.5%) and accuracy (recovery=100.2±1.7%) for furfural quantification in carbohydrate hydrolysate samples. The method requires no sample pretreatment, so it is simple, rapid and accurate, and suitable for applications in lignocellulosic biomass conversion to fuel ethanol or other high value-added products.