飞行时间质谱仪新技术的进展及应用

本文介绍了近几年来发展应用于飞行时间质谱(TOF-MS)仪中的软电离技术。质子转移电离实现了可挥发性有机物的高灵敏度分析;真空紫外灯电离源体积小、简单,利于便携式仪器;电喷雾解吸电离在线、无损和灵敏度高,在公共安全方面具有很大的发展潜力,而且还可以直接用于活的生物体表面分析;大气压下的在线直接分析电离技术利用载气分子的激发态使得被分析化合物电离得到分子离子。针对不同的电离方法简单评述了其性能及应用,同时介绍了飞行时间质谱在串联方面的新发展,以及TOF-MS在仪器微型化方面的进展及其应用,并对飞行时间质谱仪今后的发展作了展望。     

飞行时间质谱仪新技术的进展及应用

本文介绍了近几年来发展应用于飞行时间质谱(TOF-MS)仪中的软电离技术.质子转移电离实现了可挥发性有机物的高灵敏度分析;真空紫外灯电离源体积小、简单,利于便携式仪器;电喷雾解吸电离在线、无损和灵敏度高,在公共安全方面具有很大的发展潜力,而且还可以直接用于活的生物体表面分析;大气压下的在线直接分析电离技术利用载气分子的激发态使得被分析化合物电离得到分子离子.针对不同的电离方法简单评述了其性能及应用,同时介绍了飞行时间质谱在串联方面的新发展,以及TOF-MS在仪器微型化方面的进展及其应用,并对飞行时间质谱仪今后的发展作了展望.     

飞行时间质谱仪新技术的进展及应用

本文介绍了近几年来发展应用于飞行时间质谱(TOF-MS)仪中的软电离技术.质子转移电离实现了可挥发性有机物的高灵敏度分析;真空紫外灯电离源体积小、简单,利于便携式仪器;电喷雾解吸电离在线、无损和灵敏度高,在公共安全方面具有很大的发展潜力,而且还可以直接用于活的生物体表面分析;大气压下的在线直接分析电离技术利用载气分子的激发态使得被分析化合物电离得到分子离子.针对不同的电离方法简单评述了其性能及应用,同时介绍了飞行时间质谱在串联方面的新发展,以及TOF-MS在仪器微型化方面的进展及其应用,并对飞行时间质谱仪今后的发展作了展望.     

热解析法/单光子电离质谱法对土壤中多环芳烃的检测

以电子束泵浦稀有气体准分子灯发射出的126 nm紫外光为电离源,结合飞行时间质谱在线分析了土壤中的16种多环芳烃(PAHs)。利用热解吸装置将PAHs气体直接引入质谱,建立了以毛细管直接进样法为样品导入方法的单光子电离质谱分析方法。考察了不同PAHs解吸时间及解吸温度的影响,并讨论了单光子电离效率对检出限的影响。根据标准混合气体的分析得到16种PAHs的检出限可达μg/mL级别。     

一种新型光电离/微型正交加速飞行时间质谱仪的设计和性能测试

介绍了自行研制的光电离/微型正交加速飞行时间质谱仪的设计原理和性能。电离源采用光子能量为10.6 eV真空紫外灯,它可将待测分子电离只产生单电荷母体离子,不产生碎片离子。采用该光电离方法得到的质谱谱图比较简单,气体样品可以不经分离直接进行分析。离子正交引入结构的飞行时间质量分析器有效地提高了质谱分辨率。用32 cm无场飞行管,测量碘甲烷得到的质谱分辨率可达430。在谱图获得频率10 kHz的操作条件下,样品总分析时间20 s,得到苯和碘甲烷的检出限分别为10×10-6,5×10-6。软电离和微型化使得该质谱仪在可挥发性有机物的实时在线监测方面有广泛的应用。     

快速蒸发电离质谱技术及其应用研究进展

近年来,原位电离质谱技术成为质谱分析领域的研究前沿和热点。快速蒸发电离质谱技术源于外科手术中的手术烟雾现象,自2009年报道以来,作为一种新型原位电离质谱技术已被广泛应用于医学、微生物鉴定、食品真伪鉴别、代谢物研究、药用植物成分鉴定等领域。该技术通过电离切割组织或其他生物样品产生的含丰富特定区域生物特征的气溶胶,对其进行原位、在线、实时、快速质谱分析。该文阐述了快速蒸发电离质谱技术的发展历程、电离机制及工作原理,并对其在不同领域的应用研究进展进行了综述,可为相关领域研究人员提供科研思路和技术参考。     

软电离质谱在烟草化学中的应用进展

综述了软电离质谱技术原理和特点,及其在烟草及烟气中有害成分分析测定、实时在线卷烟烟气测定、致香物质的分离与鉴定、农残测定等方面展望了其在烟草化学中的应用,主要包括化学电离质谱、电喷雾电离质谱、大气压化学电离质谱、激光解吸电离质谱、单光子电离质谱等技术(引用文献54篇)。     

原位电离与小型质谱在公共安全领域的应用

质谱作为一种具有高准确度、高灵敏度、高选择性的检测仪器,在公共安全领域有着重要的应用前景。公共安全领域的需求主要涉及毒品、毒物、爆炸物等化学物质的现场快速检测,因其影响广泛,检测结果需非常准确。作为实验室分析仪器,质谱的准确性和速度能满足公共安全的应用需求,但作为现场快速检测的仪器仍需要一定改进。现场快速检测一方面要求检测仪器的小型化,另一方面要求样品前处理的简单化,以使整个检测流程可以无需专业人员来完成。对于检测仪器的小型化,小型质谱的开发在近20年得到了充分发展;对于样品前处理的简单化,研究者发明了原位电离技术,使得基质复杂的被分析物无需前处理即可进行质谱检测。该文首先介绍了原位电离技术的发展及其在公共安全领域的应用,特别是对解吸附电喷雾电离、实时直接分析电离、激光烧蚀电喷雾电离、纸喷雾电离与纸毛细管喷雾电离等典型原位电离技术的原理、性能及在公共安全领域的应用进行了详细介绍,并讨论了几种原位电离现场定量方法。然后,对原位电离小型质谱的发展进行了综述,从最初的小型化离子阱,到仅能检测可挥发有机物的小型质谱,再到可检测非挥发性物质的常规大气压电离源小型质谱,最后发展成为有原位电离源的小型质谱,历经20年的发展使得原位电离小型质谱得以出现和提升。并列举了原位电离小型质谱在毒品现场检测与吸毒人员排查、爆炸物现场侦察、食品安全之农用化学品检测、药物质量检查等公共安全领域的应用。最后,对原位电离小型质谱的发展进行了展望,指出原位电离与小型质谱相结合是小型质谱发展的必然趋势,未来需使用更加智能化的原位电离小型质谱,结合云数据平台,实现更方便广泛的应用。     

离子漏斗聚焦光电离质谱仪的研制及其在大气苯系物在线监测中的应用

大气苯系物具有较高的光化学反应活性和生物毒性,是最重要的大气挥发性有机污染物之一,然而其浓度低,时空变化快,对其进行实时准确的定量监测极具挑战。真空紫外光电离(VUV-PI)质谱技术是苯系物在线监测常用的分析方法,但目前常用的VUV-PI电离源无法有效利用源内产生的离子,制约了灵敏度的进一步提升。本研究设计了一台新型离子漏斗聚焦光电离源-飞行时间质谱仪(IFPI-TOFMS),通过在电离源内引入射频离子漏斗聚焦技术,将源内离子传输效率提升了26～37倍,在5 s内,对异戊二烯、苯、甲苯、苯乙烯、对二甲苯、三甲苯和柠檬烯7种化合物的检出限(LODs)分别达到34.3×10^-12、 7.9×10^-12、 7.0×10^-12、 9.4×10^-12、 7.7×10^-12、 10.6×10^-12和13.7×10^-12(V/V),并且具有2～3个量级的线性范围,线性相关系数(R²)均大于0.99。IFPI-TOFMS具有较好...     

双电离源(辉光放电/激光溅射电离)四极杆质谱仪的研制

本研究将辉光电离源与激光溅射电离源巧妙地结合在同一台仪器中,使固体样品在离子源腔体中既能辉光电离,也能激光电离;并且使用同一质量分析器,两种离子源的结果可以相互比对,进而得到更为准确的分析结果.此仪器主要由真空系统、离子源、离子传输系统、四极杆质量分析器及检测与数据采集系统等组成.实验中分别用两种离子源测试了标准样品SRM 1262b,并获得了半定量结果.结果表明,仪器具有定性能力强,分析速度快,检测灵敏度高等优点,对固体样品元素分析的检出限可达μg/g量级.实验表明,激光溅射电离质谱的性能优于辉光放电质谱.     

真空紫外灯单光子电离源飞行时间质谱仪的研制

研制了真空紫外灯单光子电离源飞行时间质谱仪(Vacuum ultraviolet single photon ionization time-offlight mass spectrometer,VUV-SPI-TOFMS),包括真空系统、毛细管进样系统、真空紫外灯电离源、垂直加速反射式飞行时间质量分析器和数据采集系统...     

Comparison of the sensitivity of mass spectrometry atmospheric pressure ionization techniques in the analysis of porphyrinoids

The porphyrinoids chemistry is greatly dependent on the data obtained in mass spectrometry. For this reason, it is essential to determine the range of applicability of mass spectrometry ionization methods. In this study, the sensitivity of three different atmospheric pressure ionization techniques, electrospray ionization, atmospheric pressure chemical ionization and atmospheric pressure photoionization, was tested for several porphyrinods and their metallocomplexes. Electrospray ionization method was shown to be the best ionization technique because of its high sensitivity for derivatives of cyanocobalamin, free‐base corroles and porphyrins. In the case of metallocorroles and metalloporphyrins, atmospheric pressure photoionization with dopant proved to be the most sensitive ionization method. It was also shown that for relatively acidic compounds, particularly for corroles, the negative ion mode provides better sensitivity than the positive ion mode. The results supply a lot of relevant information on the methodology of porphyrinoids analysis carried out by mass spectrometry. The information can be useful in designing future MS or liquid chromatography–MS experiments. Copyright © 2013 John Wiley & Sons, Ltd.     

Atmospheric pressure chemical ionization in gas chromatography-mass spectrometry for the analysis of persistent organic pollutants

Atmospheric pressure chemical ionization (APCI) was primarily applied as the ion source for liquid chromatography-mass spectrometry (LC–MS). While APCI started to be used in gas chromatography-mass spectrometry (GC–MS) in 1970s, GC-APCI-MS was not widely used until recently. As a soft ionization technique, APCI provides highly diagnostic molecular ions, which is favored for the wide-scope screening. With the capability of tandem mass spectrometry (MS/MS), GC-APCI-MS methods with high sensitivity and selectivity have been developed and applied in the analysis of persistent organic pollutants (POPs) in environment and biological samples at trace levels. The present review introduces the history of the APCI source, with emphasis on mechanisms of ionization processes under the positive and negative ionization modes. Comparison between GC-APCI-MS and GC–MS with traditional electron ionization (EI) and chemical ionization (CI) are provided and discussed for selectivity, sensitivity and stability for the analyses of POPs. Previous studies found that the GC-APCI-MS methods provided limits of detection (LODs) around 10–100 times lower than other methods. An overview of GC-APCI-MS applications is given with the discussions on the advantages and drawbacks of various analytical methods applied for the analyses of POPs.     

Laser desorption postionization for imaging MS of biological material

Vacuum ultraviolet single photon ionization (VUV SPI) is a soft ionization technique that has the potential to address many of the limitations of matrix‐assisted laser desorption/ionization (MALDI) for imaging MS. Laser desorption postionization (LDPI) uses VUV SPI for postionization and is experimentally analogous to a MALDI instrument with the addition of a pulsed VUV light source. This review discusses progress in LDPI‐MS over the last decade, with an emphasis on imaging MS of bacterial biofilms, analytes whose high salt environment make them particularly resistant to imaging by MALDI‐MS. This review first considers fundamental aspects of VUV SPI including ionization mechanisms, cross sections, quantum yields of ionization, dissociation and potential mass limits. The most common sources of pulsed VUV radiation are then described along with a newly constructed LDPI‐MS instrument with imaging capabilities. Next, the detection and imaging of small molecules within intact biofilms is demonstrated by LDPI‐MS using 7.87 eV (157.6 nm) VUV photons from a molecular fluorine excimer laser, followed by the use of aromatic tags for detection of selected species within the biofilm. The final section considers the future prospects for imaging intact biological samples by LDPI‐MS. Copyright © 2010 John Wiley & Sons, Ltd.     

电喷雾/光电离双源型小型离子阱质谱仪的研制

构建了一套电喷雾/紫外灯双电离源离子阱质谱仪系统,用于气体和液体样品的快速检测.仪器采用非连续大气压进样技术,通过夹管阀装置来同时完成电喷雾离子和中性气态样品的采集和传输.所配备的两种电离源适合不同的分析对象,在应用上具有一定的互补性,其中电喷雾源用于溶液中极性化合物的电离,而紫外电离源主要用于分析气态有机物.本研究选择了苯甲醚、甲苯、2,4-二甲基苯胺、精氨酸、利血平和阿斯巴甜等不同类型的样品,测试了仪器在使用不同电离模式下的工作性能.结果表明,电喷雾源和紫外光电离源可用于不同类型样品的电离,在分析2,4-二甲基苯胺时还能分别生成不同类型的分子离子.两种电离源在工作时互不干扰,既能单独使用,也能同时开启,可根据检测需求随意切换工作模式,获得更全面的样品成分信息.双离子源设计是扩展小型质谱仪应用范围的一种有效途径,这种方案不会明显增加仪器的体积,却能提供更多样化的分析功能,满足对不同类型样品的检测需求.     

Radiofrequency field enhanced chemical ionization with vacuum ultraviolet lamp for miniature time-of-flight mass spectrometer

Radiofrequency field enhanced chemical ionization enhances the sensitivity of benzene, toluene, hydrogen sulfide and other compounds by 2–3 orders of magnitude and expanded the detection range of the compounds with ionization energy from 10.6 eV to 12.0 eV.     

Super‐atmospheric pressure ionization mass spectrometry and its application to ultrafast online protein digestion analysis

Ion source pressure plays a significant role in the process of ionization and the subsequent ion transmission inside a mass spectrometer. Pressurizing the ion source to a gas pressure greater than atmospheric pressure is a relatively new approach that aims to further improve the performance of atmospheric pressure ionization sources. For example, under a super‐atmospheric pressure environment, a stable electrospray can be sustained for liquid with high surface tension such as pure water, because of the suppression of electric discharge. Even for nano‐electrospray ionization (nano‐ESI), which is known to work with aqueous solution, its stability and sensitivity can also be enhanced, particularly in the negative mode when the ion source is pressurized. A brief review on the development of super‐atmospheric pressure ion sources, including high‐pressure electrospray, field desorption and superheated ESI, and the strategies to interface these ion sources to a mass spectrometer will be given. Using a recent ESI prototype with an operating temperature at 220 °C under 27 atm, we also demonstrate that it is possible to achieve an online Asp‐specific protein digestion analysis in which the whole processes of digestion, ionization and MS acquisition could be completed on the order of a few seconds. This method is fast, and the reaction can even be monitored on a near‐real‐time basis. Copyright © 2016 John Wiley & Sons, Ltd.     

新型空气动力辅助离子源与不同类型质量分析器的快速接口技术

报道了新型空气动力辅助离子化(AFAI)装置与不同类型商业化质量分析器的快速接口技术. 在前期研究基础上, 进一步提高了AFAI系统的抽气流速, 在更宽范围内考察了流速对质谱灵敏度的影响; 对AFAI离子源进行模块化设计和制作, 重点解决快速接口问题, 通过更换接口板可实现其与不同厂家、 不同类型质量分析器的兼容及联用, 尤其可以与具有气帘接口的质量分析器联用. 本离子源装置结合不同质量分析器可以进行全扫描、 子离子扫描、 母离子扫描、 中性丢失扫描和高分辨等多种类型质谱分析, 而且AFAI可在电喷雾(ESI)、 解析电喷雾(DESI)和大气压化学电离(APCI)等多种离子化模式下工作, 从而实现对不同性质化合物的快速检测. 本研究结果进一步提高了AFAI离子化技术的功能, 拓展了其应用范围.     

Study on thermal decomposition of polymers by evolved gas analysis using photoionization mass spectrometry (EGA-PIMS)

Photoionization mass spectrometry (PIMS) with vacuum ultraviolet (VUV) light source provides an efficient and fragmentation-free method for the soft ionization of gaseous compounds, in order to facilitate an understanding of thermal decomposition behavior and chemical composition of polymeric materials. The PIMS was applied to the evolved gas analysis (EGA) system equipped with a skimmer interface which is constituted based upon a jet separator principle between a vacuum MS chamber and an atmospheric sample chamber in a furnace. A photoionization source with a deuterium (D₂) lamp was closely installed to the vacuum ionization chamber of a mass spectrometer to improve the ionization efficiency. The thermal decomposition of typical polymers in inert gas atmosphere was investigated by the EGA-PIMS and the resulting PI mass spectrum was characterized satisfactorily by only the parent ions with no contribution as a result of fragmentation during the ionization. The results suggested that the EGA-PIMS was an especially powerful and desirable in situ thermal analysis method for polymeric materials which evolve organic gases simultaneously and concurrently. The combination of EGA equipped with skimmer interface with no change of evolved gaseous species and PIMS with fragmentation-free during the ionization is described briefly, and the effective results are presented by comparing with EGA using conventional electron impact ionization mass spectrometry.