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1.
建立了乙酰甲胺磷、甲胺磷对映体在茶叶基质中的手性拆分与定量方法。比较了2种手性柱对乙酰甲胺磷及甲胺磷对映体的分离效果,并对分离效果较优的BGB-176手性柱进行色谱条件优化。茶叶样品经改良QuEChERS法处理后,气相色谱测定,外标法定量。在0.04,0.08,0.4 mg/kg 3个加标水平下,甲胺磷、乙酰甲胺磷的回收率分别为58.3%~66.4%和50.8%~57.6%,相对标准偏差(n=5)均小于7%。方法检出限为0.003~0.01 mg/kg。该方法简便、可靠,满足分析要求。通过实际样品的检测,发现乙酰甲胺磷、甲胺磷对映体在茶树上存在一定的降解差异。  相似文献   

2.
应用气相色谱法测定水中甲胺磷含量。取水样50.00mL旋转蒸发至近干,用乙酸乙酯提取3次,每次用5mL,收集提取液于浓缩管中,浓缩至1mL供气相色谱分析。用HP-1701毛细管色谱柱分离,火焰光度检测器检测。甲胺磷的质量浓度在0.050~1.00mg·L-1范围内与其峰面积呈线性关系,检出限(3S/N)为0.001mg·L-1。在3个浓度水平上进行加标回收试验,回收率在84.0%~91.2%之间,测定值的相对标准偏差(n=5)在3.4%~5.9%之间。  相似文献   

3.
茶叶样品经乙酸乙酯提取,上清液于50℃蒸发至近干,加入乙酸乙酯溶解残渣后,经硅胶-石墨化碳混合柱净化。先以乙酸乙酯洗脱去除杂质,再以碱化乙腈洗脱并收集流出液,在50℃蒸发至近干,加乙酸乙酯定容至1mL,供气相色谱分析。采用DB-1701色谱柱分离和火焰光度检测器检测,所得甲胺磷的线性范围为0.010~1.00mg·L-1,方法的检出限(3S/N)为0.005mg·kg-1。在0.010,0.020,0.080 mg·kg-1 3个浓度水平下进行回收试验,甲胺磷的回收率在85.0%~90.9%之间,相对标准偏差(n=6)在2.2%~4.3%之间。  相似文献   

4.
指数程序薄涂柱气相色谱法测定甲胺磷   总被引:1,自引:0,他引:1  
甲胺磷是一种兼具杀虫、肥料两种性能的高效、广谱农药,由于甲胺磷加热到一定温度时分解(185~190℃),所以其色谱分析时操作温度不能太高,用气相色谱法测定甲胺磷已有报道,但用指数程序薄涂柱气相色谱法测定尚未见报道,该法选择了DEGS为固定液,将0.34%、0.49%、0.7%的DEGS涂在80~100目硅烷化玻璃微球载体上,填入1 m不锈钢色谱柱进行测定,当柱温为150℃时甲胺磷即与其它成分分离,出峰时间仅为2.25 min,且峰形对称,这样既避免了操作温度高易使甲胺磷分解的缺陷,又提高了定量的准确性和分析速度,该法应用于多种样品中甲胺磷的测定,结果令人满意。  相似文献   

5.
茶叶中25种有机氯农药多残留气相色谱测定方法   总被引:5,自引:1,他引:5  
利用气相色谱(GC)建立了茶叶中25种有机氯农药同时测定的方法。茶叶中有机氯农药残留通过正己烷-丙酮(体积比2∶1)溶液提取,浓缩后过弗罗里硅土柱净化,采用正己烷-乙酸乙酯(体积比9∶1)溶液淋洗,淋洗液吹氮至干后以正己烷定容供GC测定。标准工作曲线范围在0.005~0.500mg/L之间。在茶叶样品中0.005~0.100mg/kg水平有机氯混标加标回收率在71%~110%之间,相对标准偏差在4.6%~13.7%之间。除乙酯杀螨醇定量下限为8.0μg/kg以外,其余24种有机氯农药定量下限均为5.0μg/kg。  相似文献   

6.
样品2.000 0g,加水2mL或4mL浸润,再加入乙酸乙酯-正己烷(1+1)混合液5mL,超声5min,提取2次。合并的提取液吹干,残渣用乙酸乙酯-正己烷(1+1)混合液2mL溶解,经被氧化的改性多壁碳纳米管净化后,其中的三氯杀螨醇和8种拟除虫菊酯农药采用气相色谱-质谱法测定。以Rtx-1701毛细管色谱柱为固定相进行气相色谱分离。质谱分析中采用选择离子监测模式,外标法定量。9种农药的质量浓度在0.010~1.0mg·L~(-1)内与其峰面积呈线性关系,检出限(3S/N)在3.5~6.0μg·kg~(-1)之间。按标准加入法在3个浓度水平上进行回收试验,回收率在84.8%~105%之间,测定值的相对标准偏差(n=6)在3.1%~8.2%之间。  相似文献   

7.
建立固相萃取-气相色谱法测定水中甲胺磷的方法。以甲醇为洗脱剂,采用椰壳活性炭固相萃取柱对水样富集,将洗脱液氮吹至近干,然后用乙酸乙酯定容至1 mL,采用气相色谱火焰热离子检测器(FTD)检测。甲胺磷的质量浓度在0.1~1.0 mg/L范围内与色谱峰面积线性关系良好,相关系数为0.998,甲胺磷的检出限为0.000 1 mg/L,定量限为0.000 4 mg/L。采用所建方法对实际水样进行测定,地表水和自来水样品加标回收率分别为83.2%~90.8%、87.8%~98.8%,测定结果的相对标准偏差分别为5.5%~8.3%、7.7%~10%(n=6)。该方法操作简单、有机溶剂用量小,可用于生活饮用水及水源水中甲胺磷的测定。  相似文献   

8.
采用气相色谱-质谱法测定植物油中7种邻苯二甲酸酯类增塑剂的含量。样品用正己烷溶解后,经Cleanert PAE固相萃取柱净化,采用正己烷-乙酸乙酯(1+1)混合溶液洗脱,洗脱液用氮气吹至近干,乙腈定容后,在DB-5毛细管色谱柱上分离,质谱中选择电子轰击离子源-选择离子监测模式。7种邻苯二甲酸酯的质量浓度在0.1~5.0 mg·L-1范围内呈线性,检出限(3S/N)为0.02 mg·kg-1。加标回收率在80.0%~120%之间,测定值的相对标准偏差(n=6)在1.1%~5.4%之间。  相似文献   

9.
毛细管气相色谱法快速测定辣椒中7种有机磷农药残留   总被引:3,自引:3,他引:0  
建立同时测定辣椒中7种有机磷农药残留量的方法。用乙酸乙酯提取,经旋转浓缩后用丙酮定容,直接进样,以HP-1701毛细管色谱柱分离,火焰光度检测器测定。结果表明,7种农药在10min内可很好地分离。样品加标回收率为80.8%~108.8%,方法的相对标准偏差为2.0%~10.7%(n=5)。7种农药的检出限为1.5~7.0μg/kg。  相似文献   

10.
采用气相色谱-质谱法同时测定土壤中30种农药残留。样品经过丙酮-正己烷(1+1)混合溶液均质提取,再用正己烷进行萃取,弗罗里硅土柱净化后,采用HP-5MS色谱柱分离,选用电子轰击离子源和选择离子监测模式进行质谱分析,外标法定量。30种农药的线性范围为0.1~1.0mg·L-1,检出限(3S/N)为3.8~9.6μg·kg-1。加标回收率在75.8%~103%之间,测定值的相对标准偏差(n=6)在5.6%~9.7%之间。  相似文献   

11.
气相色谱法测定茶叶中多种有机磷农药残留量   总被引:50,自引:2,他引:48  
张莹  黄志强  李拥军 《色谱》2001,19(3):273-275
 采用微量化学法和全自动固相萃取技术 ,建立了气相色谱法同时测定茶叶中 14种有机磷农药残留量的方法 ,并对样品的前处理作了一定的探讨。结果表明 ,采用程序升温 ,所测定的 14种有机磷农药在SPBTM 170 1石英毛细管柱上得到了很好的分离 ,且方法快速、灵敏 ,完全符合实际应用需要。  相似文献   

12.
建立了快速滤过型净化(m-PFC)结合气相色谱-串联质谱(GC-MS/MS)测定茶叶中10种拟除虫菊酯类农药残留的方法。比较了采用不同提取溶剂(乙腈、丙酮和乙酸乙酯)和不同提取方式(不加水浸泡和加水浸泡)时10种农药的提取效率;比较了2种QuEChERS净化管和m-PFC柱对茶叶提取液的净化效果和农药残留的回收率。结果表明,茶叶样品不加水浸泡,用乙腈提取效果最好;m-PFC柱对茶叶提取液净化效果良好,而且能保证较高的农药回收率。10种拟除虫菊酯农药在相应的范围内有良好的线性关系,相关系数(R2)大于0.9980;10种农药在4个水平添加下的回收率为87.5%~111.3%,RSD为2.1%~8.9%。方法的检出限为0.001~0.015 mg/kg,定量限为0.003~0.05 mg/kg。利用该方法检测市售50例茶叶样品中10种拟除虫菊酯农药的残留,检出率为48%,但农药残留量均在国家标准限量值以下。与传统QuEChERS法和固相萃取法相比,该方法具有操作简单、准确度和精密度良好等优点,为多种拟除虫菊酯类农药在茶叶中的残留测定提供了快速检测的新方法。  相似文献   

13.
LC/MS/MS was developed to determine the residues of bithionol (BTN), bromofen (BMF), nitroxynil (NTX), oxyclozanide (OCZ), and tribromsalan (TBS) in milk. Samples were extracted with ethyl acetate and cleaned up by liquid-liquid separation with acetonitrile and n-hexane. The compounds were determined by RP-LC using a C18 column with 0.1% formic acid-methanol. Mass spectral acquisition was performed in the negative mode by applying selected-reaction monitoring. The method was validated in milk spiked with these compounds at 5-600 microg/kg; average recoveries were in the range 83.8-97.1%, with RSD values of 1.4-8.0%. The interassay RSDs were less than 11%. The LODs of these compounds in milk were 0.1 microg/kg. The method was applied to 24 raw milk samples. The concentration of these compounds in all samples was lower than the Japanese maximum residue limits. The method is rapid, sensitive, and specific for monitoring residues of BTN, BMF, NTX, OCZ, and TBS in milk.  相似文献   

14.
Rapid analytical methods for the determination of endosulfan isomers and endosulfan-sulfate in air and plant samples were developed. The insecticides were trapped from air using a column containing Florisil and extracted with a low volume of ethyl acetate, assisted by sonication. Pesticide residues were determined by gas chromatography with electron-capture detection using a nonpolar capillary column. Residue identities were confirmed by gas chromatography coupled with mass spectrometry. Recoveries of these compounds from air samples were always higher than 78% with an RSD lower than 11% and the detection limits obtained were at least 0.3 ng/l air. Leaf samples were homogenised with ethyl acetate and extracts cleaned-up on an aluminium oxide column. Pesticides were eluted with a hexane-ethyl acetate (80:20, v/v) mixture. Recoveries obtained from plant samples were higher than 78% with an RSD lower than 14% and detection limits in leaves were 0.02 microg/g for each pesticide. These methods were applied to study the volatilisation of endosulfan from tomato leaves under laboratory conditions. A volatilisation rate near 1% of the initial amount of endosulfan per hour was obtained during the first 24 h at room temperature.  相似文献   

15.
气相色谱-质谱法分析蜂蜜中的多种农药残留   总被引:2,自引:0,他引:2  
开展了蜂蜜中23种农药残留的气相色谱-电子轰击离子源质谱(GC-EI/MS)分析方法的研究,并对其中3种农药的EI/MS碎片离子的断裂机理与结构进行了初步解析。探讨了蜂蜜试样前处理条件的优化与选择。将蜂蜜试样用乙酸乙酯提取剂超声提取、Florisil硅藻土色谱柱净化和正己烷-乙酸乙酯(体积比为7∶3)混合洗脱剂洗脱后,以PCB103为内标物,采用选择离子监测(SIM)方式下的GC-EI/MS分析。当试样的加标浓度为50,100和200 μg/kg时,加标回收率为82%~120%,相对标准偏差小于11.0%。23种农药的检测限都小于10.0 μg/kg,线性范围为10~500 μg/kg,相关系数都大于0.995。此分析方法已成功地应用于蜂蜜中23种痕量农药残留的分析。  相似文献   

16.
柱后衍生高效液相色谱法测定虾中14种磺胺类药物残留量   总被引:2,自引:0,他引:2  
建立了虾中14种磺胺类药物残留量的柱后衍生高效液相色谱检测方法。样品在加入内标物磺胺吡啶后用乙酸乙酯提取,提取液浓缩后用4 mL乙酸乙酯溶解残余物,用盐酸溶液反萃取,正己烷去脂,盐酸溶液经滤膜过滤后,加入乙腈、甲醇和3.5 mol/L乙酸钠溶液(体积比为5∶5∶20)的混合溶液混匀后,经高效液相色谱分离,用荧光胺衍生试剂进行柱后衍生,荧光检测器检测。采用基质标样添加法绘制标准曲线,内标法定量。对柱后衍生系统参数进行了优化,确定了荧光胺溶液的浓度、流速和反应温度分别为0.2 g/L、0.15 mL/min和50℃。14种磺胺类药物在5~200μg/L范围内具有良好的线性。磺胺类药物的定量限(LOQ,S/N=10)为1.0~5.0μg/kg。在1.0~100.0μg/kg添加水平内,磺胺类药物的平均回收率为77.8%~103.6%,相对标准偏差(RSD)为2.9%~9.1%(n=6)。实验结果表明该方法灵敏、准确,重复性好,适用于虾中磺胺类药物的残留检测。  相似文献   

17.
黄微  李娜  徐瑞晗  李婷  李崇勇 《色谱》2018,36(12):1303-1310
建立了加速溶剂萃取(ASE)-固相萃取净化(SPE)-气相色谱-串联质谱(GC-MS/MS)同时测定茶叶中9种拟除虫菊酯类农药残留的方法。ASE萃取溶剂为丙酮-正己烷(1∶1,v/v),萃取温度为100℃,萃取压力为10 MPa,加热时间为3 min,静态萃取时间为5 min,循环1次,冲洗体积为40%萃取池体积,氮气吹扫100 s。萃取结束后用Cleanert TPT固相萃取柱净化,净化液浓缩定容后,采用GC-MS/MS测定,外标法定量。9种拟除虫菊酯类农药在2~1 000μg/L范围内呈现良好的线性关系,相关系数(r2)均大于0. 99,方法检出限为0. 2~4. 5μg/kg,定量限为0. 8~15. 0μg/kg。在绿茶、红茶空白基质中做加标回收试验,添加水平为0. 02、0. 1、0. 4 mg/kg以及定量限水平,得到的平均回收率为69. 87%~110. 0%,相对标准偏差(RSD)为0. 7%~11. 2%。该方法背景干扰低、灵敏度高、重现性好、回收率稳定,适用于茶叶中拟除虫菊酯类农药残留量的检测。  相似文献   

18.
A column liquid chromatographic (CLC) method for the determination of thiamphenicol residues in chicken muscles was developed. The drug is extracted from minced muscles with ethyl acetate and the extract is evaporated to dryness. The residue is dissolved in 10% sodium chloride solution and partitioned with n-hexane. Thiamphenicol is extracted with ethyl acetate and, after evaporation of the solvent, the residue is cleaned up by alumina column chromatography. CLC analysis is carried out on a Nucleosil C18 column with ultraviolet detection of thiamphenicol at 230 nm. The average recoveries of thiamphenicol added to muscles at 0.2 and 0.1 ppm were 92.8 and 90.0%, respectively. The detection limit was 5 ng for thiamphenicol standard, which corresponds to 0.05 ppm in muscles.  相似文献   

19.
A method to determine six organochlorine and three pyrethroid pesticides in grape, orange, tomato, carrot and green mustard based on solvent extraction followed by solid phase extraction (SPE) clean-up is described. The pesticides were spiked into the sample prior to analysis, extracted with ethyl acetate, evaporated and reconstituted with a solvent mixture of acetone:n-hexane (3:7). Three different sorbents (Strong Anion Exchanger/Primary Secondary Amine (SAX/PSA), Florisil and C18) were used for the clean-up step. Pesticides were eluted with 5mL of acetone:n-hexane (3:7, v/v) and determined by gas chromatography and electron-capture detection (GC-ECD). SAX/PSA was the sorbent, which provided chromatograms with less interference and the mean recoveries obtained were within 70-120% except for captafol. The captafol recoveries for grape were within acceptable range with C18 clean-up column.  相似文献   

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