QuEChERS/高效液相色谱-串联质谱法测定柑橘中7种酚类环境激素

建立了QuEChERS/高效液相色谱－串联质谱（QuEChERS/HPLC－MS/MS）同时检测柑橘中7种酚类环境激素的分析方法。柑橘样品均质粉碎后采用乙腈（含0.1%甲酸）超声提取,氯化钠盐析,经N-丙基乙二胺（PSA）+C18粉末吸附剂净化,目标化合物经Waters ACQUITY UPLC BEH C18柱（50 mm × 2.1 mm,1.7 μm）分离,以水（含0.5 mmol/L乙酸铵）和甲醇为流动相进行梯度洗脱。考察了不同提取溶剂、提取时间、提取溶剂体积、吸附剂种类和用量对目标化合物回收率的影响。结果表明：在最佳条件下,双酚A（BPA）、壬基酚（NP）、双酚F（BPF）在0.5～100 μg/L范围内线性关系良好,双酚B（BPB）、双酚S（BPS）、4-n-壬基酚（4-n-NP）、4-n-辛基酚（4-n-OP）在0.2～100 μg/L范围内线性关系良好,相关系数（r2）均不小于0.994 1,检出限（LOD）为0.2～0.5 μg/L,定量下限（LOQ）为0.5～1.5 μg/L。在10、250、500 μg/kg 3个加标水平下,目标化合物的回收率为88.5%～109%,相对标准偏差（RSD）为1.2%～9.0%。应用该方法对市售的8种柑橘样品进行检测,BPA在7种柑橘中均检出,4-n-OP在5种柑橘中检出,NP和4-n-NP在3种柑橘中检出,BPB在1种柑橘中检出,BPF、BPS在所有样品中均未检出。该方法操作简单、快速灵敏、定量准确、精密度高,适用于柑橘中7种酚类环境激素的测定。     

高通量固相萃取-超高效液相色谱-串联质谱法测定人尿中8种环境酚类内分泌干扰物

建立了人尿中8种环境酚类化合物的96孔板固相萃取-超高效液相色谱-串联质谱(96-well SPE LC-MS/MS)检测方法,其中包括7种双酚类化合物和三氯生。尿样解冻到室温,经β-葡萄糖醛酸苷肽酶/芳基磺酸酯酶37 ℃过夜酶解。实验比较了3种96孔板固相萃取柱和不同淋洗条件对人尿样的净化效果和目标化合物的回收率。结果显示,采用Oasis HLB 96孔板(60 mg)对样品进行萃取和用30%(v/v)乙腈水溶液进行淋洗净化的纯化效果最好。纯化后目标物用甲醇溶液洗脱,经氮气吹干,用0.5 mL甲醇-水(1∶1, v/v)溶液定容,目标化合物用UPLC-MS/MS进行检测。比较了2种分析柱(C₁₈和T3分析柱)以及不同的有机流动相对分离样品中目标物的影响。结果显示,以BEH C₁₈(100 mm×2.1 mm, 1.7 μm)作为分析柱,乙腈/水作为流动相,以流速0.3 mL/min梯度洗脱时,目标物的分离效果最好。质谱条件选择串联质谱负离子电喷雾(ESI^-)多反应监测模式(MRM)进行检测。对样品的基质效应进行评估发现,双酚A、双酚F、双酚S、双酚B和双酚AF的绝对基质效应为3.47%~15.32%,不需要补偿措施;四氯双酚A、四溴双酚A和三氯生的绝对基质效应分别是49.58%(中等基质效应)、71.99%和86.93%(强基质效应),均需要补偿效应。因此,该方法采用了一一对应的同位素内标法抵消基质效应。用6份实际尿样基质评估相对基质效应,8种内标的峰面积的相对标准偏差为3.63%~9.06%,说明相对基质效应稳定。在优化条件下,双酚A和双酚AF在0.50~50 μg/L内、四氯双酚A和双酚S在0.05~50 μg/L内、双酚F和四溴双酚A在0.01~50 μg/L内、双酚B在1.00~50 μg/L内、三氯生在5.00~200 μg/L内线性关系良好,相关系数大于0.9995。方法检出限为0.002~1.09 μg/L,定量限为0.007~3.63 μg/L。3个加标水平的加标回收率为81.0%~101.9%,日内精密度为0.4%~19.4%,日间精密度为2.5%~17.8%。应用该方法对2019-2020年采集的北京地区64份尿样进行测定,结果发现8种目标分析物中,除双酚B和双酚AF未检出外,其余均有检出,其中双酚A和双酚S的检出率最高,分别为100%和96.9%。三氯生、四溴双酚A、四氯双酚A和双酚F的检出率分别为57.8%、46.9%、23.4%和21.9%。尿样中8种目标物含量的中位值以降序排列分别为1.44 μg/L(三氯生)、0.69 μg/L(双酚A)、0.086 μg/L(双酚S)、0.0032 μg/L(四溴双酚A)、0.00050 μg/L (四氯双酚A)、0.00 μg/L(双酚F、双酚B和双酚AF)。以上尿样检测结果显示,北京市居民存在普遍的环境酚类化合物暴露,值得关注。该方法操作简单,定量准确,样品需求量小,有机试剂消耗少,适合大批量样本的测定。     

冷诱导液液萃取-分散固相萃取净化-超高效液相色谱-串联质谱法同时测定鸡蛋中白僵菌素和4种恩镰孢菌素残留

新型生物毒素白僵菌素(BEA)和恩镰孢菌素(ENNs)是由镰刀菌种产生的有毒代谢产物,主要污染谷物及其制品,会威胁人类健康,因此受到人们越来越多的关注。该工作建立了冷诱导液液萃取-分散固相萃取净化-超高效液相色谱-串联质谱法(CI-LLE-DSPE-UPLC-MS/MS)同时测定鸡蛋中白僵菌素和4种恩镰孢菌素残留的分析方法。以乙腈-水-乙酸(79∶20∶1, v/v/v)为提取溶剂,采用冷诱导液液萃取与分散固相萃取净化相结合的方法进行样品处理,同时,对影响待测物提取与净化效率的提取溶剂、冷冻萃取温度与时间、净化剂用量等因素和色谱条件进行了优化。样品经20 mL提取液涡旋提取20 min,放入-40 ℃冰箱静置30 min后,取2 mL上层溶液经70 mg C18粉末净化,离心,上清液于40 ℃浓缩至近干,残留物用1 mL 80%(v/v)乙腈水溶液溶解,进样分析。以乙腈与5 mmol/L甲酸铵溶液作为流动相进行梯度洗脱,经ACQUITY UPLC BEH C18色谱柱(100 mm×2.1 mm, 1.7 μm)分离,采用ESI⁺电离,在多反应监测模式下采集,白僵菌素采用稳定同位素内标法定量,4种恩镰孢菌素采用基质匹配曲线外标法定量。结果表明,5种待测物在0.1~50.0 μg/L范围内线性关系良好,相关系数(r²)为0.9983~0.9997,该方法的检出限(LOD)为0.05~0.15 μg/kg,定量限(LOQ)为0.20~0.50 μg/kg。以阴性鸡蛋样品为基质,在低、中、高3个浓度水平(0.5、5.0、25.0 μg/kg)下进行加标试验考察方法的准确度与精密度,各待测物的平均回收率为81.1%~106%,相对标准偏差(RSD)为0.27%~9.79%。采用所建立的方法对农村散养鸡蛋与市售鸡蛋进行检测,结果表明,BEA在散养鸡蛋的检出率为30.4%, 4种ENNs均未被检出。该方法灵敏度高,稳定性好,回收率高,定量准确,简单易操作,适用于禽蛋食品中白僵菌素与恩镰孢菌素的同时快速测定。     

高效液相色谱分析食品罐内涂料中双酚A和双酚F环氧衍生物残留

建立了高效液相色谱分析食品罐内涂料中双酚A(BPA)和双酚F(BPF)环氧衍生物的方法.样品经乙腈提取后,旋转蒸发浓缩至干,以V(乙腈)∶ V(水)=50∶ 50混合液溶解并定容;采用Lichrospher C18柱,以乙腈/水为流动相梯度洗脱,进行高效液相色谱分离;荧光检测器检测,激发波长230 nm,发射波长301 nm.在2.3～230 μg/L浓度范围内,各BPA和BPF环氧衍生物的响应峰面积与其相应浓度呈良好相关性,检出限为0.57～6.55 μg/L;在80～400 μg/L添加水平范围内,平均添加回收率为85%～107%;相对标准差小于7.4%.结果表明,本方法适用于食品罐内涂料中BPA和BPF环氧衍生物残留分析.     

无花果叶中有效成分鉴别及含量测定

近年来,无花果叶片中所含成分分析主要集中在同类型物质或整类物质,而对多种类型单一有效物质的定性定量研究较少。 本文采用溶剂浸提-超声波辅助法对无花果叶片中的有效成分进行了提取,利用气相色谱-质谱和超高效液相色谱-离子阱质谱对有效成分进行了鉴定。 结果表明,无花果叶中主要成分为绿原酸、芦丁、补骨脂素和佛手苷内酯。 采用单因素实验法,确定了4种成分的最佳提取工艺。 利用高效液相色谱建立了绿原酸、芦丁、补骨脂素和佛手苷内酯的定量分析方法。 绿原酸在1.84~9.2 μg范围内有良好的线性关系(R²=0.9991),回收率为95.2%;芦丁在3.4~17 μg范围内有良好的线性关系(R²=0.9981),回收率为96.8%;佛手内脂在4~20 μg范围内有良好的线性关系(R²=0.9998),回收率为89.5%;补骨脂素在4~20 μg范围内有良好的线性关系(R²=0.9963),回收率为87.1%。     

液相色谱-串联质谱法测定葡萄中链霉素和双氢链霉素

研究系统地优化了样品前处理过程及仪器分析中影响链霉素和双氢链霉素残留分析准确度与响应灵敏度的各主要因素,建立了葡萄中链霉素和双氢链霉素残留的快速精准定量分析方法。葡萄样品经磷酸溶液(pH=2)超声提取、Oasis HLB单固相萃取柱富集净化后,采用Waters HSS T3色谱柱(100 mm×2.1 mm, 1.8 μm)分离,柱温35 ℃,进样量2 μL,以0.1%甲酸水溶液-甲醇溶液(60∶40, v/v)为流动相进行等度洗脱,在正离子、电喷雾电离源多反应监测模式下测定,外标法定量。链霉素和双氢链霉素在2~400 μg/L质量浓度范围内线性关系良好,相关系数(R²)分别为0.9991和0.9997;在5、10、20和40 μg/kg 4个添加水平下的平均回收率为76.8%~91.9%,相对标准偏差为0.4%~10.2%;链霉素和双氢链霉素的检出限(LOD)为1 μg/L,定量限(LOQ)为5 μg/kg。为验证该方法的适用性,将方法适用于无籽红提、新郁葡萄、夏黑葡萄等实际样品中进行添加回收实验,链霉素和双氢链霉素的平均回收率分别为77.2%~83.9%和70.8%~78.9%, RSD为3.0%~15.6%。该法的准确度和精密度均符合葡萄中链霉素和双氢链霉素分析要求,且操作简便、准确,灵敏度高,适用于葡萄中链霉素和双氢链霉素残留量的检测分析。     

QuEChERS-同位素内标-高效液相色谱-串联质谱法测定动物源性食品中植物生长调节剂类农药残留

建立了高效液相色谱-串联质谱法测定动物源性食品中植物生长调节剂类农药残留量的方法。选取猪肉、牛肉、鸡肉、猪肝、鸡蛋和牛奶作为样品,样品经乙腈提取,4 g无水硫酸镁(MgSO₄)和1 g氯化钠(NaCl)盐析脱水后,取上清液经50 mg N-丙基乙二胺(PSA)+50 mg十八烷基硅烷(C18)粉末净化(含150 mg MgSO₄)。采用Agilent ZORBAX Eclipse Plus C18柱分离待测物,电喷雾电离,正负离子切换多反应检测模式检测,以乙腈和5 mmol/L乙酸铵水溶液作为流动相进行梯度洗脱,基质匹配内标法定量。在猪肝、鸡蛋基质中,矮壮素、噻苯隆和多效唑在0.1~100 μg/L范围内线性关系良好;在猪肉、牛肉和鸡肉中3种植物生长调节剂在0.1~50 μg/L范围内线性关系良好;在牛奶基质中,噻苯隆和多效唑的线性范围为0.05~10 μg/L,矮壮素的线性范围为0.05~5 μg/L,相关系数(r²)均大于0.990。以信噪比(S/N)≥3对应的添加水平作为检出限(LOD), S/N≥10对应的添加水平作为定量限(LOQ),矮壮素、噻苯隆和多效唑在不同基质下的LOD为0.01~0.1 μg/kg, LOQ为0.5~5 μg/kg。分别添加LOQ、2倍LOQ和10倍LOQ 3个水平的目标化合物,平均回收率为70.0%~117.4%, RSD为0.8%~16.1%。该方法操作简单、灵敏度高,采用基质匹配内标法定量,能最大限度地消除基质干扰,使检测结果更加精确,可满足动物源性食品中矮壮素、噻苯隆和多效唑残留的定量检测工作。     

QuEChERS结合超高效液相色谱-串联质谱法同时测定畜禽肉中44种食源性兴奋剂和6种孕激素

利用QuEChERS结合超高效液相色谱-串联质谱法建立了畜禽肉中44种兴奋剂和6种孕激素的检测技术。样品粉碎均质后加入内标,依次加入水和含0.5%乙酸的乙腈溶液振荡提取后,加入氯化钠和无水硫酸镁脱水离心,上清液采用PSA、C₁₈、中性氧化铝和无水硫酸镁分散固相萃取材料进行净化,净化液经氮气吹干,复溶后用超高效液相色谱-串联质谱仪测定。被测物采用ACQUITY BEH C₁₈(100 mm×2.1 mm, 1.7 μm)色谱柱,以0.1%甲酸-5 mmol/L乙酸铵水溶液和甲醇为流动相分离,在电喷雾正离子模式下,以多反应监测(MRM)方式采集,采用基质匹配标准曲线内标法定量分析。50个被测物包含6类化合物:β₂-激动剂类(19个)、β-阻断剂类(3个)、蛋白同化激素类(11个)、糖皮质激素类(8个)、利尿剂类(3个)、孕激素(6个)。所有被测物在各自的范围内线性关系良好,相关系数>0.99, β₂-激动剂类和β-阻断剂类的线性范围为0.1~20 μg/L,糖皮质激素类的线性范围为0.5~200 μg/L,蛋白同化激素类、孕激素类、利尿剂类的线性范围为0.2~50 μg/L。方法的定量限范围为0.1~0.4 μg/kg。在低、中、高3个浓度水平下的加标回收率试验中,50种目标化合物在鸡肉、猪肉、牛肉、羊肉中的平均回收率范围为50.3%~119.9%,相对标准偏差(RSD, n=6)范围为0.42%~15.1%。采用该法和国标方法(GB/T 21981-2008)同时对市售的9个肉样品(包括3个牛肉、3个猪肉、2个鸡肉、1个鸭肉)进行了比对检测,对检出的氢化可的松、可的松含量采用t检验进行统计学分析,结果表明,两种方法测得的数据没有显著性差异。采用该法测定了12个来自某养殖场的牛肉样品,结果共检出4种食源性兴奋剂,其中氢化可的松的含量范围为3.3~22.6 μg/kg,检出率为100%;可的松的含量范围为1.5~2.1 μg/kg,检出率为67%;雄烯二酮含量范围为0.7~1.2 μg/kg,检出率为17%;睾酮含量范围为0.6~1.5 μg/kg,检出率为42%。该法操作简单,准确灵敏,重复性好,适用于不同种类畜禽肉中食源性兴奋剂和孕激素的检测。     

在线固相萃取-高效液相色谱同时检测水中双酚A和双酚S

建立在线固相萃取-高效液相色谱法(On-line SPE-HPLC)同时测定水样中双酚A(BPA)和双酚S(BPS)的新方法。水样经过滤,用C18柱在线富集,用Spherigel C18分析柱(250 mm×4.6 mm,5μm)进行HPLC分析,以乙腈-水为流动相梯度洗脱(0~15 min,乙腈-水由70/30(V/V)变为80/20(V/V)),用高效液相色谱-二极管阵列检测器(HPLC-DAD)进行定量分析,检测波长为323 nm。BPA在0.05~5μg/L范围内,BPS在0.07~5μg/L范围内,线性关系良好,相关系数R~20.999。BPA和BPS检测限(LOD)分别为0.017和0.028μg/L,定量限(LOQ)分别为0.033和0.057μg/L。加标0.2μg/L BPA和BPS时,回收率在90%~98%内,相对标准偏差(n=6)在2%~6%内。本法适用于环境水样中BPA和BPS的同时测定。     

液相色谱-三重四极杆质谱同时测定食品接触材料中双酚A、双酚F与双酚S的迁移量

采用液相色谱-三重四极杆质谱(LC-MS/MS)建立了食品接触材料中双酚A、双酚F和双酚S化合物的同时测定方法。双酚A、双酚F和双酚S在样品中通过与食品模拟物在一定温度、时间接触的状态下迁移到食品模拟物中,以C18色谱柱进行分离,甲醇-氨水为流动相洗脱,采用电喷雾离子源(ESI),多反应监测(MRM)负离子模式进行扫描,同位素内标法定量。结果表明,双酚A、双酚F和双酚S的色谱分离良好,双酚A和双酚F在1~50μg/L质量浓度范围内与其峰面积均呈线性关系,BPS在0.1~50μg/L质量浓度范围内与其峰面积呈线性关系。BPA和BPF的最低检出限为0.3μg/L,BPS的最低检出限为0.05μg/L。加标回收率为83.6%~102.6%,相对标准偏差(RSD)为3.5%~8.9%。该方法快速可靠、准确简便,适用于食品接触材料中双酚A、双酚F和双酚S化合物的检测。     

Measurement of bisphenol A and bisphenol B levels in human blood sera from healthy and endometriotic women

A sensitive HPLC method with fluorescence detection was developed for the determination of bisphenol A (BPA) and bisphenol B (BPB) in human blood serum. The detection limits of the method were 0.18 and 0.20 ng/mL for BPA and BPB, respectively. A single‐step liquid–liquid extraction was used for the pre‐treatment of serum samples. The recoveries of BPA and BPB spiked to sera were 85.6 and 87.7%, respectively. The analyses of sera from both healthy and endometriotic women emphasized the absence of bisphenols in all the control cases (11 women), whereas BPA was found in 30 sera (51.7%) and BPB was found in 16 sera (27.6%) in the group of 58 patients with endometriosis; in nine of such sera BPA and BPB were present simultaneously. Only relatively to the sera quantitated, BPA concentrations ranged from 0.79 to 7.12 ng/mL (mean concentration 2.91 ± 1.74 ng/mL), whereas BPB concentrations ranged from 0.88 to 11.94 ng/mL (mean concentration 5.15 ± 4.16 ng/mL). Therefore, the presence of at least one of the two bisphenols was verified in a percentage as high as 63.8% in the sera from endometriotic women, suggesting the existence of a relationship between endometriosis and BPA and/or BPB exposure. Indeed, it is well known that bisphenols can work as xenoestrogens, owing to their structural similarity to natural and synthetic estrogens (e.g. estradiol and dietilstilbestrol). However, further studies are necessary to confirm this hypothesis and to assess the actual dose at which exposures to bisphenols are able to increase the sensitivity of the endometriotic cells to estradiol. Copyright © 2009 John Wiley & Sons, Ltd.     

Micro Salting-Out Assisted Matrix Solid-Phase Dispersion: A Simple and Fast Sample Preparation Method for the Analysis of Bisphenol Contaminants in Bee Pollen

In the present work, a novel sample preparation method, micro salting-out assisted matrix solid-phase dispersion (μ-SOA-MSPD), was developed for the determination of bisphenol A (BPA) and bisphenol B (BPB) contaminants in bee pollen. The proposed method was designed to combine two classical sample preparation methodologies, matrix solid-phase dispersion (MSPD) and homogenous liquid-liquid extraction (HLLE), to simplify and speed-up the preparation process. Parameters of μ-SOA-MSPD were systematically investigated, and results indicated the significant effect of salt and ACN-H₂O extractant on the signal response of analytes. In addition, excellent clean-up ability in removing matrix components was observed when primary secondary amine (PSA) sorbent was introduced into the blending operation. The developed method was fully validated, and the limits of detection for BPA and BPB were 20 μg/kg and 30 μg/kg, respectively. Average recoveries and precisions were ranged from 83.03% to 94.64% and 1.76% to 5.45%, respectively. This is the first report on the analysis of bisphenol contaminants in bee pollen sample, and also on the combination of MSPD and HLLE. The present method might provide a new strategy for simple and fast sample preparation of solid and semi-solid samples.     

Analysis of bisphenols in soft drinks by on-line solid phase extraction fast liquid chromatography-tandem mass spectrometry

In this study, an automated on-line solid-phase extraction coupled to fast liquid chromatography–tandem mass spectrometry (on-line SPE fast LC–MS/MS) method was developed for the simultaneous analysis of bisphenol A (BPA), bisphenol F (BPF), bisphenol E (BPE), bisphenol B (BPB) and bisphenol S (BPS) in canned soft drinks without any previous sample treatment. A C18 (12 μm particle size) loading column was used for the SPE on-line preconcentration before the liquid chromatography baseline separation of bisphenol compounds using a C18 Fused-Core™ (50 mm × 2.1 mm i.d.) column, which took less than 3 min. Gradient elution and heated electrospray were used to reduce matrix effect and improve ionization efficiency. To select the most intense and selective transitions, fragmentation studies were performed by multiple-stage mass spectrometry in an ion trap mass analyzer and tandem mass spectrometry in a triple quadrupole instrument, this latter instrument being used for quantitation in SRM mode. Quality parameters of the method were established and we obtained a simple, fast, reproducible (RSD values lower than 10%) and accurate (precision higher than 93%) method for the analysis of bisphenols in canned soft drinks at the ng L⁻¹ level using matrix-matched calibration.     

替代模板分子印迹聚合物的制备及其用于人尿、牛血清和啤酒中7种双酚类物质的选择性固相萃取

以酚酞(PP)为替代模板,采用本体聚合法制备了选择性识别7种双酚类物质(BPs)的分子印迹聚合物(MIP)。将制备的PP-MIP用作固相萃取(SPE)填料,成功应用于人尿、牛血清和啤酒样品中7种BPs的分离净化。建立了同时测定人尿、牛血清和啤酒样品中的7种BPs的MIP-SPE-HPLC分析方法。3种样品中7种BPs的方法检出限范围均为1.2~2.0 μg/L。结果表明,7种BPs在0.02~2 mg/L范围内线性关系良好,相关系数(r)大于0.9998;空白样品中加标水平为100和500 μg/L的回收率范围为90.1%~107.1%,相对标准偏差(RSD)不高于8.1%。该方法简便、准确、灵敏、可靠,可用于人尿、牛血清和啤酒中7种BPs的快速检测。     

Determination of bisphenols in sewage based on supramolecular solid-phase extraction/liquid chromatography/fluorimetry

Supramolecular sorbents (hemimicelles/admicelles) are proposed for the extraction/preconcentration of bisphenols from aqueous environmental samples prior to their liquid chromatography/fluorimetric determination. A comparative study on the use of cetyltrimethylammonium bromide (CTABr)-coated silica and sodium dodecyl sulphate (SDS)-coated gamma-alumina as sorbent materials, is presented. Bisphenol A (BPA) and bisphenol F (BPF) were quantitatively retained on CTABr admicelles. Addition of tetrabutylammonium chloride (TBAC) to water samples was required to completely retain bisphenols on SDS-gamma-alumina. Retention on both sorbents occurred through hydrophobic and pi-cation interactions between the quaternary ammonium head group of the cationic amphiphile (CTABr or TBAC) and the aromatic rings of the target analytes. TBAC-SDS-gamma-alumina was the sorbent selected for the SPE of bisphenols on the basis of the lower elution volume required (1 ml of methanol) and the greater breakthrough volume allowed (400 ml), which permitted to reach practical detection limits of 10 and 15 ng/l for BPF and BPA, respectively. The proposed method was used to quantify bisphenol A and bisphenol B in wastewater samples from four sewage treatment plants. Recoveries obtained ranged between about 99 and 105% for raw wastewater and between 96 and 106% for treated wastewater.     

固相萃取/超高效液相色谱-串联质谱法测定尿液中6种双酚类及烷基酚类物质

建立了超高效液相色谱-串联质谱测定人体尿液中双酚A(BPA)、双酚F(BPF)、四氯双酚A(TCBPA)、四溴双酚A(TBBPA)、壬基酚(NP)、4-正辛基苯酚(4-n-OP)的检测方法。尿液样品通过酶解和固相萃取法进行前处理,采用Acquity UPLC HSS T3色谱柱(2.1 mm×100 mm,1.8μm)分离,负离子电喷雾多反应监测模式检测,同位素内标法定量。6种待测物在0.5~50μg/L范围内线性关系良好,相关系数均大于0.995,检出限为0.05~0.60μg/L,定量下限为0.17~2.00μg/L,2、10、50μg/L加标水平下的回收率为81.4%~112%,相对标准偏差(RSD,n=6)为6.8%~30%。应用此方法测定160份人体尿液样品,双酚A的检出率为93.8%,检出范围为0.24~29.54μg/L,其余目标物未检出。该方法操作简便、重现性好、定量准确,适用于人体尿液中双酚类及烷基酚类物质的测定。     

Electroanalysis of Bisphenols A,F, and Z Using Graphene Based Stochastic Microsensors

Two stochastic microsensors based on immobilization of the complex between protoporphyrin IX and cobalt on nanographene paste and on the reduced graphene oxide paste were proposed for the simultaneous identification and quantification of bisphenols A (BPA), F (BPF) and Z (BPZ) from water samples. The signatures obtained for the BPA, BPF, and BFZ when both stochastic microsensors were used shown that the microsensors can be used for the discrimination between the three bisphenols in water samples. Very low limits of determination were obtained for the three bisphenols: 1fmol/L for BPA and BPF when the microsensor based on the immobilization of the complex between protoporphyrin IX and cobalt on nanographene paste was used, and 10fmol/L for BPZ when the microsensor based on the immobilization of the complex between protoporphyrin IX and cobalt on reduced graphene oxide paste was used. The linear concentration ranges covered by the proposed stochastic microsensors were: between 10^?15 and 10^?5 mol/L for BPA, between 10^?15 and 10^?7 mol/L for BPF, and between 10^?13 and 10^?10 mol/L for BPZ. The recoveries of the bisphenols in water samples were higher than 99.50 %, with RSD values lower than 1.00 %.     

A simple approach for ultrasensitive detection of bisphenols by multiplexed surface-enhanced Raman scattering

Bisphenol A (BPA) is well known for its use in plastic manufacture and thermal paper production despite its risk of health toxicity as an endocrine disruptor in humans. Since the publication of new legislation regarding the use of BPA, manufacturers have begun to replace BPA with other phenolic molecules such as bisphenol F (BPF) and bisphenol B (BPB), but there are no guarantees regarding the health safety of these compounds at this time. In this context, a very simple, cheap and fast surface-enhanced Raman scattering (SERS) method was developed for the sensitive detection of these molecules in spiked tap water solutions. Silver nanoparticles were used as SERS substrates. An original strategy was employed to circumvent the issue of the affinity of bisphenols for metallic surfaces and the silver nanoparticles surface was functionalized using pyridine in order to improve again the sensitivity of the detection. Semi-quantitative detections were performed in tap water solutions at a concentrations range from 0.25 to 20 μg L⁻¹ for BPA and BPB and from 5 to 100 μg L⁻¹ for BPF. Moreover, a feasibility study for performing a multiplex-SERS detection of these molecules was also performed before successfully implementing the developed SERS method on real samples.     

固相萃取-超高效液相色谱-高分辨质谱法快速测定食用油中4种酚类环境雌激素残留

建立了固相萃取-超高效液相色谱-高分辨质谱(SPE-UPLC-HRMS)快速测定食用油中4种痕量酚类环境雌激素(双酚S(BPS)、双酚F(BPF)、双酚A(BPA)和4-壬基酚(4-NP))的分析方法。食用油样品经乙腈涡旋提取和SLC玻璃固相萃取小柱净化后,以0.05%(v/v)三乙醇胺和甲醇溶液为流动相进行梯度洗脱,采用Waters ACQUITY UPLC HSS T3色谱柱(100 mm×2.1 mm,1.8μm)进行分离,在电喷雾离子源负离子模式(ESI-)和选择性离子监测(SIM)模式下进行检测,内标法定量。4种目标物在各自的范围内有良好的线性关系,相关系数(r)0.999。方法的检出限(LOD,S/N=3)和定量限(LOD,S/N=10)分别为0.03~0.11μg/kg和0.10~0.36μg/kg。在1.0、10.0和80.0μg/kg 3个加标水平下,4种目标物的加标回收率为86.3%~96.1%,相对标准偏差(RSD)为2.2%~8.8%(n=6)。基质效应实验表明方法在低、中、高3个浓度水平下均无明显的基质干扰。该法简便、快速,能用于食用油中双酚S、双酚F、双酚A和4-壬基酚残留的快速检测。