气相色谱近年的发展

简要阐述了近几年气相色谱(GC)的发展和特点。GC是一个成熟的技术,广泛地应用于各个领域,近几年GC的发展除了继续研究新的固定相和高性能的毛细管色谱柱之外,主要在全二维气相色谱(GC×GC)、快速GC、便携式GC仪和微型GC仪几个方面。近几年新研究的GC固定相主要集中在常温离子液体和各种环糊精的衍生物。现在GC研究者趋向于使用商品化的GC毛细管柱,而商品化的GC毛细管柱应用最多的是以含5%苯基的聚甲基硅氧烷为固定相的色谱柱。GC×GC发展迅猛,特别是关于调制器的研究,已开发出十多种调制模式,并广泛地应用于各个领域。为了适应大量样品的分析和现场分析,研究和开发了多种快速GC方法和仪器以及便携式GC仪。为了仪器的小型化和专属性检测,μGC仪的研究也稳步地发展起来。     

基于微机电系统的微型气相色谱柱研究进展

气相色谱柱是气相色谱仪的关键部件,主要用于混合气体组分的分离。与传统气相色谱柱相比,基于微机电系统（MEMS）技术设计制作的微型气相色谱柱具有重量轻、体积小、功耗低、分离快速等优点,便于集成到便携式气相色谱仪中,适应了目前气相色谱仪微型化的发展趋势。该文综述了MEMS微型气相色谱柱的研究进展,首先阐述了MEMS微型气相色谱柱理论基础,随后对MEMS微型气相色谱柱沟道布局及柱内结构、固定相支撑层及固定相制备等方面进行了综述,最后对其发展趋势进行了展望。     

以金属有机框架材料HKUST-1为固定相的微型气相色谱柱

气相色谱柱微型化有利于气相色谱系统的小型化,然而对微型气相色谱柱而言,轻烃的分离是一个挑战。本研究基于微机电系统（MEMS）技术制备了微型气相色谱柱,在室温下合成了一种金属有机框架材料HKUST-1,采用动态涂敷法将HKUST-1涂敷到微型气相色谱柱中作为固定相。对以HKUST-1为固定相的微型气相色谱柱进行分离测试,结果表明,此微型气相色谱柱可以完全分离轻烃混合物（甲烷、乙烷、丙烷和正丁烷）,其中难以分离的甲烷和乙烷的分离度达到9.2。     

近两年国内气相色谱的进展

对近两年国内学者对气相色谱(GC)的研究和应用进行了综述.GC已经是一门十分成熟和广泛应用的分析技术,近两年国内学者的研究发展近似于国外的GC研究和发展,基础性GC研究不多,大多为GC在各个领域的应用研究.应用研究包括在食品、中药、水、气、石油、石化、工业品、农残和烟草分析中的应用.     

全二维气相色谱的原理、方法及应用概述

全二维气相色谱(GC×GC)是近几年来发展起来的一个新技术,与传统的多维色谱不同,它提供了一种真正的正交分离系统,其峰容量约等于两根柱各自峰容量的乘积,非常适合于复杂样品的分析。本文主要对GC×GC的原理、仪器、分析方法及其应用进行了评述,并展望了其未来发展趋势。     

气相色谱固定相研究新进展

发展高选择性固定相是实现气相色谱(GC)高效分离样品组分及其分析测定的关键。近年,材料科学的快速发展促进了新型色谱固定相的研究和应用。该文综述了近5年有关多孔材料、石墨烯及类似物、三聚茚类材料和蝶烯类材料等作为GC固定相的研究进展,并对GC固定相研究进行了总结和展望。     

生物制药研究中的多维色谱

对全二维气相色谱(GC×GC)、全二维液相色谱(HPLC×HPLC)、多维毛细管电泳等多维分离技术在生物制药研究中的应用进行了综述,其中对作者所在研究组在全二维气相色谱应用于中药及固相萃取-液相色谱联用分析系统等方面的工作做了重点介绍。由所综述的生物制药研究得出结论：多维分离方法以其高分辨、快速、自动化等特点已经在生物制药领域显示出它的巨大优势,并将发挥更大的作用。     

近年国内外毛细管气相色谱柱的进展和趋向

报道了近两年毛细管气相色谱柱的发展和趋向. 气相色谱柱制柱工艺是一个成熟的技术, 所以在制柱工艺方面的研究不够活跃. 近年新研究的固定相集中在常温离子液体和各种环糊精的衍生物. 近几年GC毛细管色谱柱的研究和改进集中在色谱柱厂家进行, 并立即成为商品柱. 本文对近两年一些重要期刊上发表的气相色谱论文进行了总结, 发现气相色谱分析所用的色谱柱大都使用毛细管柱, 并趋向于使用商品GC毛细管柱, 所使用的商品色谱柱中, 使用最多的是以含5%苯基的聚甲基硅氧烷做固定相的色谱柱, 其次是以100%甲基的聚硅氧烷做固定相的色谱柱. 极性毛细管色谱柱主要使用PEG、 OV-17和OV-1701固定相.     

多种气相色谱联用技术分析陕西刺五加茎挥发油的化学成分

采用气相色谱/四极杆质谱(GC/qMS)、气相色谱/正交加速飞行时间质谱(GC/oaTOFMS)和气相色谱/傅里叶变换红外光谱(GC/FTIR)联用技术,对一种陕西产刺五加Acanthopanax senticosus (Rupr. et Maxim.) Harms茎挥发油的化学成分进行了分析。基于GC/qMS谱库的检索功能,结合GC/FTIR在结构鉴别上的优势和GC/oaTOFMS对质谱碎片离子精确的质量测定功能,成功地实现了对68个色谱组分的定性分析。与使用单一的联用技术(例如GC/qMS)相比,利用多种色谱联用技术在定性分析上的互补性,可以明显提高对组成复杂的挥发油类样品分析的可靠性。     

气相色谱和液相色谱微型化中的关键问题

目前分析仪器微型化的浪潮汹涌澎湃,人们以极大的热情投入到这个浪潮中。从世界各地的实验室里出现的原理型样机看上去是如此的微小、简洁和令人惊诧,有如此多的加工工艺可以应用在微型器件的加工和组合上从非常昂贵的、在超净房间才能使用的精密仪器设备和工艺到土法上马、在普通房间就能操作的加工手段。它的前景是那样的诱人,引无数英雄一试身手。　　从1986年我第一次听说微型气相色谱仪并看到相关文章,就认定它是色谱发展的未来。1987年底我在荷兰第一次看到它时,就下决心今生一定研究微型色谱,因为它从观念上、认识上打开了分析仪…     

外加场分离技术与微流控技术联用在微纳尺度物质分离中的研究进展

微纳尺度物质的分离和分选在精准医学、材料科学和单细胞分析等研究中至关重要。精准、高效和快速的分离微纳尺度物质能够为癌症的早期诊断、生物样品检测和细胞筛选提供重要帮助,其中基于外加场分离技术的分离微纳尺度物质因可以对微纳尺度物质高效在线分离和分选,被广泛应用于微纳米颗粒、外泌体以及生物细胞的分离工作中,而目前多数外加场分离技术存在装备繁琐和样品消耗大等问题。微流控技术是一种通过制作微通道和微流控芯片操纵微小流体对微纳尺度样品组分进行分离的技术,因具有快速检测、高通量、在线分离、集成性高、成本低等优势现被应用于微纳尺度物质分离分析中,是一种微纳尺度物质分离的有效方法,通过在微流控芯片上设计不同的通道及外部配件提高主动场对微纳尺度物质分离效率。外加场分离技术与微流控技术联用可以实现微纳尺度物质的无损、高效、在线分离。该综述主要概述了近年来在微流控芯片上依托流动场、电场、磁场及声场等外加场分离技术来提高对微纳尺度物质分离效率的研究现状,并将各个外力场对单细胞、微颗粒等微纳尺度物质的分离进行分类介绍,总结各自的优缺点及发展应用,最后展望了外加场分离技术与微流控技术联用在应用于癌细胞的早期筛查、精确分离微尺度物质领域的未来发展前景,并提出联用技术的优势和未来应用等。     

Mass spectrometry in the U.S. space program: Past, present, and future

Recent years have witnessed significant progress on the miniaturization of mass spectrometers for a variety of field applications. This article describes the development and application of mass spectrometry (MS) instrumentation to support of goals of the U.S. space program. Its main focus is on the two most common space-related applications of MS: studying the composition of planetary atmospheres and monitoring air quality on manned space missions. Both sets of applications present special requirements in terms of analytical performance (sensitivity, selectivity, speed, etc.), logistical considerations (space, weight, and power requirements), and deployment in perhaps the harshest of all possible environments (space). The MS instruments deployed on the Pioneer Venus and Mars Viking Lander missions are reviewed for the purposes of illustrating the unique features of the sample introduction systems, mass analyzers, and vacuum systems, and for presenting their specifications which are impressive even by today's standards. The various approaches for monitoring volatile organic compounds (VOCs) in cabin atmospheres are also reviewed. In the past, ground-based GC/MS instruments have been used to identify and quantify VOCs in archival samples collected during the Mercury, Apollo, Skylab, Space Shuttle, and Mir missions. Some of the data from the more recent missions are provided to illustrate the composition data obtained and to underscore the need for instrumentation to perform such monitoring in situ. Lastly, the development of two emerging technologies, Direct Sampling Ion Trap Mass Spectrometry (DSITMS) and GC/Ion Mobility Spectrometry (GC/IMS), will be discussed to illustrate their potential utility for future missions.     

Study of Monolithic Integrated Micro Gas Chromatography Chip

A monolithic micro gas chromatography (μGC) chip which integrated the micro separation column (μSC) and the micro thermal conductivity detector (μTCD) based on MEMS (Micro-electro-mechanical systems) technique was fabricated. Compared to the state of the art, the μSC with high depth-to-width ratio channels that was coated with mesoporous silica nanoparticles as stationary phase could effectively improve the column capacity and separation performance. Besides, the stable suspending μTCD, which was designed and fabricated in two ports of the μGC chip, could availably enhance the thermal isolation and reliability of the device. The mixture of light hydrocarbons (methane, ethane, propane and butane) could be separated from each other and detected by this monolithic integrated μGC chip, in which the overall analysis and detection time was only 33 seconds, the separation resolution of ethane and propane was 8.34, and the number of theoretical plate was as high as 11420. The monolithic integrated μGC chip has many advantages such as good separation resolution, high column efficiency and short analysis time, and is suitable for portable gas chromatographic field and onsite detection.     

Gas Chromatography‐Mass Spectrometry‐Basic Principles,Instrumentation and Selected Applications for Detection of Organic Compounds

Abstract

This mini‐review discusses the analytical technique of gas chromatography‐mass spectrometry (GC‐MS), specifically basic principles and instrumentations. The applications of GC‐MS to a number of studies for determining organic compounds from around the world are presented and highlight its universal use and acceptance. Selected applications show that GC‐MS is an integral and complimentary part of many field studies involving organic compound detection and determination.     

Development and applications of single-drop microextraction for pesticide residue analysis: A review

Single-drop microextraction (SDME) has become more popular than other microextraction techniques because it is simple, cost-effective, easy to operate and nearly solvent-free. The technique has been employed successfully for trace analysis in environmental, biomedical and food applications. In view of the increasingly stringent regulatory limits for many pesticides, which are below the LOD of the existing instruments, SDME may provide a cost-effective solution for reducing the LOD of pesticides. The present review focuses on recent development in SDME technique, and its application coupled with various analytical techniques, such as GC-MS, GC and HPLC for pesticide residue analysis in different matrices. The advantages, limitations and outlook on the future of SDME technique for its wider applications are also discussed.     

Practical approaches to fast gas chromatography-mass spectrometry

Fast gas chromatography–mass spectrometry (GC–MS) has the potential to be a powerful tool in routine analytical laboratories by increasing sample throughput and improving laboratory efficiency. However, this potential has rarely been met in practice because other laboratory operations and sample preparation typically limit sample throughput, not the GC–MS analysis. The intent of this article is to critically review current approaches to fast analysis using GC–MS and to discuss practical considerations in addressing their advantages and disadvantages to meet particular application needs. The practical ways to speed the analytical process in GC and MS individually and in combination are presented, and the trade-offs and compromises in terms of sensitivity and/or selectivity are discussed. Also, the five main current approaches to fast GC–MS are described, which involve the use of: (1) short, microbore capillary GC columns; (2) fast temperature programming; (3) low-pressure GC–MS; (4) supersonic molecular beam for MS at high GC carrier gas flow; and (5) pressure-tunable GC–GC. Aspects of the different fast GC–MS approaches can be combined in some cases, and different mass analyzers may be used depending on the analytical needs. Thus, the capabilities and costs of quadrupole, ion trap, time-of-flight, and magnetic sector instruments are discussed with emphasis placed on speed. Furthermore, applications of fast GC–MS that appear in the literature are compiled and reviewed. At this time, the future usefulness of fast GC–MS depends to some extent upon improvement of existing approaches and commercialization of interesting new techniques, but moreover, a greater emphasis is needed to streamline overall laboratory operations and sample preparation procedures if fast GC–MS is to become implemented in routine applications.     

微型集成化色谱仪

用微制造技术和色谱原理结合，以全新的概念和设计思维研制色谱仪一微型集成化色谱仪。这种仪器的整个色谱部分在基片上制成。集微型进样器，细内径毛细管柱和微型固体检测器于一体，功耗不过几瓦，重不过几百克，而分析速度比现有仪器提高近一个数量级，检测灵敏度可达１０＾－６Ｖ／Ｖ。这种仪器的制作过程类似半导体器件，能大批量，性能高度重复可靠、而成本极为低廉地制造出来，彻底改变传统色谱仪器的生产方式。本文给出这种仪     

微型机电系统在物化分析中的应用

介绍了微型机电系统（ＭＥＭＳ）的基本概念，发展简史和主要特点。详细讨论了ＭＥＭＳ在化学分析中的应用，指出ＭＥＭＳ技术使化学分析仪器微小型化、性能提高，同时还降低了仪器和实验的成本。最后简要介绍了微小型化学分析仪器的支撑技术。     

微/纳米结构聚苯胺的制备及应用的新进展

结合徽/米结构聚苯胺最新的研究现状,扼要综述了从传统化学和电化学方法中发展起来的用于制备各种微／纳米结构聚苯胺的最新方法(如软模板法和硬模板法),并介绍了聚苯胺应用方面的新进展。