解吸附电晕束电离质谱法快速筛选保健食品中非法添加的5型磷酸二酯酶抑制剂

建立了解吸附电晕束离子源(DCBI)结合离子阱质谱快速检测保健食品中非法添加的3种磷酸二酯酶5(PDE5)抑制剂(伐地那非、西地那非、他达拉非)的方法。采用一级质谱筛选,二级质谱确证,对样品中非法添加物进行定性鉴别;通过二级特征碎片离子进行半定量分析,并与传统高效液相色谱-紫外(HPLC-UV)定量检测法对比。对12个市售保健品进行检测,DCBI-MS定性检测结果与HPLC-UV检测结果一致,有7个样品检出他达拉非,3个样品检出西地那非,1个样品检出伐地那非。通过研究3种PDE5抑制剂的二级质谱裂解规律,推测一个样品中含有羟基豪莫西地那非。本方法快速准确,适用于大批量复杂基质样品中PDE5抑制剂的筛查。     

高效液相色谱-高分辨质谱快速筛查和确证保健品中非法添加的壮阳药物

采用高效液相色谱-四极杆/飞行时间质谱对中药保健品中红地那非、伐地那非、那红地那非、他达拉非、西地那非、豪莫西地那非、硫代艾地那非、伪伐地那非、羟基豪莫西地那非、育亨宾、达泊西汀等11种非法添加的壮阳类药物进行了快速筛查、确证和定性定量检测。样品经甲醇提取后,采用正离子扫描模式进行检测。结果表明,11种待测物的定量限除那红地那非为25.0 ng/mL外,其他10种壮阳类药物均为5.0 ng/mL,在5.0~200.0 ng/mL(那红地那非在25.0~500.0 ng/mL)范围内,线性相关性较好,相关系数均不小于0.9990。平均添加回收率为82.0%~105.9%,相对标准偏差为4.7%~16.5%。本方法利用准确质量数匹配和自建标准谱库,通过多级特征碎片离子的比对,实现快速筛查和确证,简单快速,结果可靠。     

鸡肉样品中痕量喹诺酮类抗生素的表面增强拉曼光谱检测研究

随着人们对食品品质要求日益增高，食品中痕量违禁物质的快速定性和定量分析成为食品安全领域的热点。本研究基于表面增强拉曼光谱（Surface-enhanced Raman spectroscopy, SERS）技术，结合自主研发的快速前处理试剂盒，建立了畜牧养殖等行业中广泛关注的2种喹诺酮类抗生素恩诺沙星和环丙沙星的现场快速检测方法。利用本方法检测了5种市售鸡肉（3种乌鸡肉、2种白条鸡肉）中的恩诺沙星和环丙沙星，结果表明，与标准方法高效液相色谱-串联质谱（High-performance liquid chromatography-tandem mass spectrometry,HPLC-MS/MS）相比，所建立的SERS方法定性准确（可有效鉴定2种结构相似的喹诺酮抗生素）、定量可靠（误差在8.2%～14.4%范围内）、灵敏度高（最低可检出浓度在100 ng/L水平），可满足食品质量控制要求。本研究建立的SERS检测方法实用性强、操作简便快速，可用于实际样品中喹诺酮类药物的快速筛查。     

基于表面增强拉曼光谱快速检测纺织品禁用染料

基于表面增强拉曼光谱(SERS)技术, 发展了一种纺织品中染料定性检测的快速方法. 以国家明确禁止使用的致癌染料碱性红9(Basic red 9)和分散黄23(Disperse yellow 23)为模型分子, 利用一步法快速制备的银纳米粒子为SERS基底并进行优化. 通过在纺织品表面直接滴加银纳米粒子的方法实现了纺织品中染料的快速SERS鉴别. 研究结果表明, 该方法不需要复杂的样品前处理过程, 能够直接实现纺织品中染料的快速定性, 且灵敏度高, 对纺织品上两种禁用染料碱性红9和分散黄23的检测限分别为0.16和0.24 mg/kg, 超出了国家标准的要求, 有望成为一种实用的纺织品安全性评估技术.     

利用紫外光离子源高场不对称波形离子迁移谱快速、现场检测水中氨的含量

氨是水体主要的污染物之一,其含量是水质评估的重要参数。本研究采用真空紫外光离子源-高场不对称波形离子迁移谱(Ultraviolet photoionization high field asymmetric waveform ion mobility spectrometry, UVFAIMS)技术,发展一种的水中氨含量的现场快速检测方法。通过对比标准氨样品和水中微量氨UV-FAIMS 谱图峰的特征补偿电压(Compensation voltage, CV)值,确定了水中HN+4的特征离子峰位置;研究了不同分离电压(Dispersion voltages, DV)下HN+4谱图峰位置的关系,获得了HN+4的特征识别系数α2和α4分别为2.21×10-5 Td-2和-1.45323×10-9 Td-4;通过不同浓度样品的信号响应,研究了UV-FAIMS 对水中氨的检出限,在信噪比为3的情况下达到了9.2 μg/ L。本研究为水中氨现场检测提供了一种快速、无需前处理的技术手段。     

两种卟啉化合物在Ag溶胶表面的紫外-可见吸收光谱和表面增强拉曼散射光谱研究

表面增强拉曼散射(SERS)自1974年被Fleischmann等^[1]发现以来,日益受到人们的重视.通过SERS谱图分析,可以获得物质结构及其与基体作用的信息.由于SERS可使拉曼信号增强10⁵~10⁶倍^[2],并且在某些情况下银胶还能使表面吸附质的荧光猝灭^[3,4], SERS常用来检测一些普通拉曼光谱难以检测的样品和考察界面络合物的形成.     

基于表面增强拉曼散射的敌草快检测方法

利用表面增强拉曼散射(SERS)技术,以银镜为SERS活性基底,建立了一种快速检测敌草快的分析方法.紫外光谱结果表明,敌草快分子在p H≤9的条件下可以稳定存在;在较宽的范围内(p H=1~9)p H值对SERS检测结果无影响.因此,无需对敌草快溶液的p H值进行调节即可进行SERS检测,简化了待测样品的预处理过程.SERS光谱检测结果表明,敌草快的特征峰强度随着浓度的降低而降低.该方法对敌草快的检测限可以达到10-8mol/L.此方法操作简单,检测速度快,能够实现对敌草快的无损检测分析.     

牛油果中化学成分的内部萃取电喷雾电离质谱检测

采用内部萃取电喷雾电离质谱(iEESI-MS)技术,以甲醇作为萃取溶剂,无需样品预处理,在优化条件下分别对牛油果果肉和果皮中化学成分进行快速直接鉴定,并考察了不同成熟度牛油果果肉中化学成分的差异.实验结果表明,在负离子检测模式下,从果肉中鉴定出棕榈酸、硬脂酸、棕榈油酸、油酸和亚麻酸等12种有效营养成分,从果皮中鉴定出儿茶素、绿原酸等11种营养成分.利用正交偏最小二乘判别分析法(OPLS-DA)对不同成熟度的牛油果果肉的iEESI-MS指纹谱图数据进行分析发现,此方法能够有效判别不同成熟程度的牛油果且5种化学成分差异显著.本方法无需样品预处理、样品耗量少、分析速度快(单个样品检测时间小于1 min)且操作简便,为植物有效营养成分和医用价值的开发提供了一种快速质谱分析新方法.     

高效液相色谱-四极杆/静电场轨道阱高分辨率质谱法快速筛查中成药和保健食品中非法添加的42种化学药物

建立了高效液相色谱-四极杆/静电场轨道阱高分辨率质谱法快速筛查中成药和保健品中非法添加化学药物的方法。中成药和保健品样品,经提取溶剂提取,以12000 r/min离心后进行质谱分析。采用Phe-nomenex C18色谱柱(100 mm×4.6 mm,2.6μm)进行分离,以乙腈和0.1%甲酸溶液作为流动相,进行梯度洗脱。质谱采用正离子和负离子同时扫描,Fullms-dd-MS2模式进行分析。在所建立的色谱条件下,42种化学药物能够得到较好分离,在线性范围内线性关系良好,相关系数均大于0.99。通过加标验证,在20,50和100 ng/g加标水平下,所有分析物的平均回收率为69.3%~105.2%,相对标准偏差(RSD)小于8.9%。运用本方法对31种保健品和中成药进行快速筛查,发现其中3种添加了盐酸二甲双胍,1种添加了西地那非,1种添加了羟基莫豪西地那非。本方法样品处理过程简单,分析时间短,准确可靠,灵敏度高。适用于中成药和保健品中非法添加化学药品的定性与定量检测,可用于非法添加药物的筛查。     

自组装有序纳米银线表面增强拉曼光谱检测牛奶中三聚氰胺

制备具有表面增强拉曼散射(SERS)增强效果的基底是获得灵敏SERS检测的基础.本研究以多元醇法合成、流体流动法组装制备的有序纳米银线作为三聚氰胺的SERS增强基底,实现了样品中痕量三聚氰胺的快速灵敏检测.通过理论计算及实验考察得到了三聚氰胺的拉曼特征峰,优化了三聚氰胺在有序纳米银线基底上的SERS检测条件.在pH=8、水为溶剂、溶剂挥发时间为14 min的最佳条件下,三聚氰胺特征峰强度与浓度在0.05 ～ 1.00 mg/L范围内呈现良好的线性关系,其线性相关系数R=0.997,检测限为0.05 mg/L.在牛奶中添加不同浓度的三聚氰胺,其回收率为89.7％～ 109.2％,相对标准偏差低于6.8％.本方法对三聚氰胺检测具有很好的灵敏度和稳定性,为其它小分子化合物的SERS检测提供技术支持.     

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.     

Surface-enhanced Raman spectroscopy of blood plasma and serum using Ag and Au nanoparticles: a systematic study

Surface-enhanced Raman spectroscopy (SERS) is a good candidate for the development of fast and easy-to-use diagnostic tools, possibly used on biofluids in point-of-care or screening tests. In particular, label-free SERS spectra of blood serum and plasma, two biofluids widely used in diagnostics, could be used as a metabolic fingerprinting approach for biomarker discovery. This study aims at a systematic evaluation of SERS spectra of blood serum and plasma, using various Ag and Au aqueous colloids, as SERS substrates, in combination with three excitation lasers of different wavelengths, ranging from the visible to the near-infrared. The analysis of the SERS spectra collected from 20 healthy subjects under a variety of experimental conditions revealed that intense and repeatable spectra are quickly obtained only if proteins are filtered out from samples, and an excitation in the near-infrared is used in combination with Ag colloids. Moreover, common plasma anticoagulants such as EDTA and citrate are found to interfere with SERS spectra; accordingly, filtered serum or heparin plasma are the samples of choice, having identical SERS spectra. Most bands observed in SERS spectra of these biofluids are assigned to uric acid, a metabolite whose blood concentration depends on factors such as sex, age, therapeutic treatments, and various pathological conditions, suggesting that, even when the right experimental conditions are chosen, great care must be taken in designing studies with the purpose of developing diagnostic tests.     

Ce^4+水解切籽5'-AMP,3'-AMPA和CAMP的原位增强 拉曼光谱研究

首次用原位增强拉曼光谱技术研究了Ce^4+水解切断核苷酸的过程,实验表明在粗糙化的银表面可以得到5'---AMP,3'－AMP和CAMP明显增强的拉曼光谱,Ce^4+水解切断5'--AMP时在2895cm^-1和2950cm^-1处分别出现CH~2的动振峰;3'---AMP中原有CH~2振动峰,当它的磷酸酯键被Ce^4+水解切断时,这些峰则明显减弱,甚至消失,把Ce^4+水解切断CAMP过程的原位拉曼光谱与5'---SAMP同Ce^4+反应以后的拉曼光谱相比较,推测Ce^4+断裂CAMP和3'--AMP时,首先切断CAMP中的一个磷酸酯键,生成5'--AMP和3'---AMP随着反应的进行Ce^4+再逐渐断裂5'--AMP和3'---AMP的磷酸酯键,生成最终产物腺苷。     

农产品中脱氧雪腐镰刀菌烯醇的表面增强拉曼检测

利用便携式拉曼光谱仪建立了一个快速筛查与检测谷物中真菌毒素脱氧雪腐镰刀菌烯醇(DON)的表面增强拉曼散射(SERS)方法。首先利用实验室前期开发的方法制备了具有高活性的水凝胶SERS芯片。该SERS芯片是将预先制备的高SERS活性的单层碳基点(CDs)包裹的银纳米颗粒团聚体(a-AgNPs/CDs)与聚乙烯醇(PVA)水溶液混合均匀后,再利用循环冷冻-解冻的物理交联法制备而成的。实验优化了影响水凝胶SERS芯片对DON的SERS响应的实验条件,包括溶剂、浸泡温度和浸泡时间。在最佳的SERS检测条件下(溶剂为水-乙醇(1:1, v/v),浸泡温度为40 ℃,浸泡时间为5 min), DON的线性响应范围为1~10000 μg/kg(相关系数(R²)=0.9967),检出限(LOD)为0.14 μg/kg,表明该SERS基底具有较高的灵敏度。得益于水凝胶特殊的孔径结构,实际样品基质中常见的糖、蛋白质、油脂、色素等干扰物质都被阻隔在水凝胶外。因此,在复杂样品检测中仅需要简单的提取,而不需要复杂的分离处理。将该方法用于小麦粉中DON的检测,所得回收率为97.3%~103%,相对标准偏差为4.2%~5.0%。实验结果表明所建立的检测DON的SERS方法具有响应范围宽、灵敏度高、重复性好、响应迅速、操作简单、抗干扰能力强等优点,这说明本实验室所构建的水凝胶SERS芯片在粮食中生物毒素的快速筛查与检测方面具有良好的应用潜力。     

The optimisation of facile substrates for surface enhanced Raman scattering through galvanic replacement of silver onto copper

A fast and cost-effective approach for the synthesis of substrates used in surface enhanced Raman scattering (SERS) has been developed using galvanic displacement. Deposition of silver onto commercially available Cu foil has resulted in the formation of multiple hierarchical structures, whose morphology show dependence on deposition time and temperature. Analysis of the surface structure by scanning electron microscopy revealed that the more complex silver structures correlated well with increased deposition time and temperature. Using Rhodamine 6G (R6G) as a model Raman probe it was also possible to relate the substrate morphology directly with subsequent SERS intensity from the R6G analyte as well as the reproducibility across a total of 15 replicate Raman maps (20 × 20 pixels) consisting of 400 spectra at a R6G concentration of 10(-4) M. The substrate with the highest reproducibility was then used to explore the limit of detection and this compared very favourably with colloidal-based SERS assessments of the same analyte.     

In situ laser-induced photochemical silver substrate synthesis and sequential SERS detection in a flow cell

A new, simple, and effective approach for multianalyte sequential surface-enhanced Raman scattering (SERS) detection in a flow cell is reported. The silver substrate was prepared in situ by laser-induced photochemical synthesis. By focusing the laser on the 320 μm inner diameter glass capillary at 0.5 ml/min continuous flow of 1 mM silver nitrate and 10 mM sodium citrate mixture, a SERS active silver spot on the inner wall of the glass capillary was prepared in a few seconds. The test analytes, dacarbazine, 4-(2-pyridylazo)resorcinol (PAR) complex with Cu(II), and amoxicillin, were sequentially injected into the flow cell. Each analyte was adsorbed to the silver surface, enabling the recording of high intensity SERS spectra even at 2 s integration times, followed by desorption from the silver surface and being washed away from the capillary. Before and after each analyte passed the detection window, citrate background spectra were recorded, and thus, no “memory effects” perturbed the SERS detection. A good reproducibility of the SERS spectra obtained under flow conditions was observed. The laser-induced photochemically synthesized silver substrate enables high Raman enhancement, is characterized by fast preparation with a high success rate, and represents a valuable alternative for silver colloids as SERS substrate in flow approaches.     

表面增强拉曼光谱技术在食品检测中的应用研究进展

食品污染是危害公众健康和安全的重要问题,探究灵敏、快速、简单的技术,以便在痕量水平上检测污染物,对保障食品质量安全和风险评价具有十分重要的意义。表面增强拉曼光谱(SERS)是利用光与金、银等纳米结构材料相互作用产生很强的表面等离子激元共振效应,可显著增强吸附在纳米结构表面上分子的拉曼信号,以超灵敏获取样品自身或拉曼探针分子丰富的指纹图谱。该技术具有灵敏度高、响应快、水干扰小、无创等优点,已广泛应用于食品检测领域。综述了近5年SERS技术在农兽药残留、毒素和食源性致病菌检测中的研究进展,并对其未来的发展前景进行了展望。     

分子印迹复合膜对降糖药的拉曼光谱快速检测

基于分子印迹技术的特异性识别特点, 以假模板盐酸胍和4-(2-氨乙基)苯磺酰胺制备了2种分子印迹复合膜, 用其对保健品中的二甲双胍、 苯乙双胍和格列本脲进行吸附后, 采用拉曼光谱法实现了保健品中降糖药的富集与快速检测. 考察了膜制备过程中纳米银的加入对拉曼光谱的增强作用, 以及吸附样品浓度等的影响. 实验结果表明, 盐酸胍分子印迹复合膜吸附5 mg/mL以上的二甲双胍或苯乙双胍后具有明显的拉曼响应, 4-(2-氨乙基)苯磺酰胺印迹膜吸附10 mg/mL格列本脲后具有明显的拉曼响应. 所建立的分子印迹复合膜结合拉曼光谱检测方法可用于多种实际样品的检测.     

Gold Nanoparticles as Dual Functional Sensor to Detect E.coliDH5α as a Model for Gram‐negative Bacteria

4‐aminothiophenol‐modified gold nanoparticles (PATP‐AuNPs) were used as colorimetric and Surface Enhanced Raman Scattering (SERS) probes for the sensitive detection of Escherichia coliDH5α, as a model for Gram‐negative bacteria. The nano‐probes were easy to prepare through Au‐S bonding. Under optimized conditions, the PATP‐AuNPs surface with positive charge can bind with negatively charged E.coliDH5α via electrostatic adhesion, resulting in a quick color change from red to blue, and also a dramatic SERS signal enhancement from thousands of AuNPs aggregated on the surface of bacteria, which was utilized for both colorimetric and SERS detection of E.coliDH5α. For colorimetric analysis, it is the first time that the classical partial least square (PLS) regression was utilized to deal with the relationship between adsorption and E.coliDH5α concentrations. Excellent linear relationship was observed from 1.1 x 10⁷ to 1.3 x 10⁸ cfu mL^‐1 with the average relative error (ARE) of 5.430, which was more accurate than the traditional extinction ration method. When coupled with confocal Raman microscope, this PATP‐AuNPs probes could be used to detection SERS signals produced from even one single bacterium. This bioassay is rapid, less expensive and convenient for bacteria detection and analysis. Therefore, PATP‐AuNPs system as a novel, versatile, on‐site and real‐time Gram‐negative bacteria sensor, would have a wide range of practical applications.     

SERS study of the interaction of thiourea with a copper electrode in sulphuric acid solution

The electrochemical interaction of thiourea with a copper electrode in sulphuric acid solution was investigated using Fourier transform Raman and in situ surface-enhanced Raman scattering (SERS) spectroscopy. SERS spectra of thiourea at a copper electrode were obtained in solutions containing greater than 5 ppm thiourea; the spectra obtained were consistent with adsorption of the molecule on the copper electrode via the sulphur atom. The SERS spectra provide evidence of complex formation involving thiourea and sulphate species at the electrode surface.