Recent developments in quantitative mass spectrometry

New procedures in quantitative mass spectrometry (MS) continue to follow very closely the development of qualitative methods. The burgeoning of MS techniques appropriate to the analysis of polar and non-volatile compounds has produced a corresponding increase in the scope of quantitative MS. In general, quantitative procedures based on the newer methods (such as fast-atom bombardment, liquid chromatography-MS, MS-MS) have not yet reached the point of quantitative refinement that may be expected of gas chromatography. Nevertheless, with increased understanding of the newer methods, significant improvements in quantification may be confidently anticipated.     

Recent developments in analytical ion trap mass spectrometry

The current status of quadrupole ion trap mass spectrometry is reviewed, with particular emphasis on liquid chromatographic coupling, membrane inlet introduction, laser desorption/ionisation and selective chemical ionisation. The flexibility, high sensitivity and multi-stage tandem mass spectrometric capability of the quadrupole ion trap are all illustrated.     

Recent developments in ambient ionization techniques for analytical mass spectrometry

Ambient ionization techniques enable the interrogation of a variety of samples in their native state by mass spectrometry, and are rapidly advancing all fields where screening for the presence of various analytes in a broadband and/or high-throughput fashion is desirable. This Highlight article provides an introduction to the field, and showcases the different ionization approaches reported since 2004, with an emphasis on the most recent developments.     

Recent developments in atomic spectrometry methods for elemental trace determinations

Summary Methods for atomic spectrometry are discussed in view of progress for elemental trace analysis and with special reference to progress in power of detection and in analytical reliability as well as with respect to economic aspects. Optical methods basing on atomic emission, absorption and fluorescence principles as well as related techniques (optogalvanic spectroscopy and coherent forward scattering), X-ray spectrometry and mass spectrometry are treated. The state-of-the-art, trends of development and new techniques such as special sample introduction for plasma spectrometry, glow discharges, laser enhanced ionization spectrometry with a thermionic diode, X-ray spectrometry with total reflection, plasma and glow discharge mass spectrometry are drawn up. Their potential interest from the point of power of detection, multielement capacity, interferences, capabilities for micro- and local analysis and speciation is compared with that of other methods for elemental analysis.

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Neue Entwicklungen atomspektrometrischer Methoden für die Elementspurenanalyse

Zusammenfassung Für die atomspektrometrischen Methoden wird der Fortschritt im Hinblick auf Nachweisvermögen, analytische Zuverlässigkeit und Kosten diskutiert. Optische Methoden wie die Emissions-, Atomabsorptionsund Fluorescenzspektrometrie, aber auch verwandte Techniken (Optogalvanik und kohärente Vorwärtsstreuung), neue röntgenspektrometrische Methoden und massenspektrometrische Verfahren werden behandelt. Es werden der Stand der Technik, die Entwicklungstendenzen und neue Techniken wie spezielle Probenzuführungsmethoden für die Plasmaspektrometrie, Glimmentladungen, die laserinduzierte Ionisationsspektrometrie, die Röntgenfluorescenzspektrometrie mit Totalreflektion und der Einsatz des induktiv gekoppelten Plasmas und von Glimmentladungen als Ionenquellen für die Massenspektrometrie dargestellt. Das Nachweisvermögen, die Multielementkapazität, die Interferenzen, die Möglichkeiten für Mikro- und Verteilungsanalysen sowie für die Bestimmung der Bindungsform bei den Methoden der Atomspektrometrie werden mit denen anderer Methoden für die Bestimmung der chemischen Elemente verglichen.

     

Recent developments in and applications of resonance ionization mass spectrometry

Resonance Ionization Mass Spectrometry (RIMS) has nowadays reached the status of a routine method for sensitive and selective ultratrace determination of long-lived radioactive isotopes in environmental, biomedical and technical samples. It provides high isobaric suppression, high to ultra-high isotopic selectivity and good overall efficiency. Experimental detection limits are as low as 10⁶ atoms per sample and permit the fast and sensitive determination of ultratrace amounts of radiotoxic contaminations. Experimental arrangements for the detection of different radiotoxic isotopes, e.g. ^236–244Pu, ^89,90Sr and ⁹⁹Tc in environmental samples are described, and the application of RIMS to the ultrarare long-lived radioisotope ⁴¹Ca for cosmochemical, radiodating and medical purposes are presented. Received: 17 December 1998 / Revised: 11 February 1999/Accepted: 18 February 1999     

Recent developments in and applications of resonance ionization mass spectrometry

Resonance Ionization Mass Spectrometry (RIMS) has nowadays reached the status of a routine method for sensitive and selective ultratrace determination of long-lived radioactive isotopes in environmental, biomedical and technical samples. It provides high isobaric suppression, high to ultra-high isotopic selectivity and good overall efficiency. Experimental detection limits are as low as 10⁶ atoms per sample and permit the fast and sensitive determination of ultratrace amounts of radiotoxic contaminations. Experimental arrangements for the detection of different radiotoxic isotopes, e.g. ^236–244Pu, ^89,90Sr and ⁹⁹Tc in environmental samples are described, and the application of RIMS to the ultrarare long-lived radioisotope ⁴¹Ca for cosmochemical, radiodating and medical purposes are presented. Received: 17 December 1998 / Revised: 11 February 1999/Accepted: 18 February 1999     

An overview of some recent developments in ionization methods for mass spectrometry

An overview of some recent advances in ionization sources for mass spectrometry is presented. Limitations were set so that the overview covers ionization techniques relevant to organic and biological analysis that have appeared in the literature since the year 2000. No effort is made to be comprehensive. Rather, a broad sweep overview of author-subjective highlights among a wide variety of sources is presented. These ionization sources include electron ionization, chemical ionization, various atmospheric plasma ionization sources, laser desorption sources, sonic spray and electrospray ionization sources.     

Recent developments of nanoparticle-based enrichment methods for mass spectrometric analysis in proteomics

In proteome research, rapid and effective separation strategies are essential for successful protein identification due to the broad dynamic range of proteins in biological samples. Some important proteins are often expressed in ultra low abundance, thus making the pre-concentration procedure before mass spectrometric analysis prerequisite. The main purpose of enrichment is to isolate target molecules from complex mixtures to reduce sample complexity and facilitate the subsequent analyzing steps. The introd...     

Recent developments in synchrotron vacuum ultraviolet photoionization coupled to mass spectrometry

In recent years, increasing attention has been paid to “soft” photoionization (PI), which will potentially become a standard, universal ionization method. Tunable synchrotron vacuum ultraviolet (SVUV) light, a quasi-continuous light with good energy resolution and high photon flux, has proved an ideal source for “soft” PI in various research fields (e.g., combustion chemistry and molecular imaging).This review focuses on combinations of SVUV light with commonly used techniques (e.g., molecular-beam sampling, laser desorption, ion desorption, and thermal vaporization). These couplings have successful applications in flame chemistry, organic analysis, chemical imaging and aerosol mass spectrometry.     

毛细管电泳-质谱联用技术的新进展

毛细管电泳-质谱(CE-MS)联用技术综合了CE的高效分离能力、广泛的样品适应性和MS的高灵敏度、可提供结构信息等优势,已发展成为一种重要的分离分析手段。本文对近几年来CE-MS联用接口技术的发展作一简单介绍,并对CE-MS在生命分析、食品药品分析等领域的一些应用进展予以综述。     

Recent developments in electrophoretic methods

13. Given the recent extended review by Vesterberg [J. Chromatogr., 480 (1989) 3-19] of electrokinetic methods, this survey has been restricted to the last decade, which has seen tremendous progress in several fields. DNA electrophoresis has experienced strong developments, both in the sequencing strategies (which have been largely automated with the use of fluorescent probes) and in pulsed field analysis of mega-DNA fragments, which has seen such developments as inverse-field, contour-clamped and rotating gel platforms, all allowing for straight band migration in each lane. Chromosome size mapping has now become a reality. Two-dimensional (2D) maps have also shown a dramatic improvement in performance, largely through the development of immobilized pH gradients, giving highly reproducible protein spots in the 2D plane and allowing the exploration of very narrow pH regions. Blotting techniques, combined with 2D mapping, allow sequence analysis and fingerprinting of a single polypeptide spot in a complex sample without resorting to lengthy chromatographic purification steps. Chromatophoresis generates a novel type of 2D mapping, based on hydrophobicity vs. size, rather than on charge vs. size, by direct coupling of a reversed-phase high-performance liquid chromatographic (HPLC) eluate to sodium dodecyl sulphate electrophoresis. The new rising star, capillary zone electrophoresis, offers speed, a large number of theoretical plates, selectivity and small sample requirements in a highly automated equipment.     

Recent developments in DNA adduct analysis using liquid chromatography coupled with mass spectrometry

The formation of DNA adducts by genotoxic agents is an early event in cancer development, and it may lead to gene mutations, thereby initiating tumor development. The measurement of DNA adducts can provide critical information about the genotoxic potential of a chemical and its mechanism of carcinogenesis. In recent decades, liquid chromatography coupled with mass spectrometry has become the most important technique for analyzing DNA adducts. The improvements in resolution achievable with new chromatographic separation techniques coupled with the high specificity and sensitivity and wide dynamic range of new mass spectrometry systems have been used for both qualitative and quantitative analyses of DNA adducts. This review discusses the challenges in qualitative and quantitative analyses of DNA adducts by liquid chromatography coupled with mass spectrometry and highlights recent developments towards overcoming the limitations of liquid chromatography coupled with mass spectrometry methods. The key steps and new solutions, such as sample preparation, mass spectrometry fragmentation, and method validation, are summarized. In addition, the fundamental principles and latest advances in DNA adductomic approaches are reviewed.     

IAEA reference materials for quality assurance of marine radioactivity measurements

The IAEA's Marine Environment Laboratory has been assisting laboratories in Analytical Quality Control Services (AQCS) for the analysis of radionuclides in the marine environment since the early seventies. AQCS through world-wide and regional intercomparison exercises and the provision of reference methods and reference materials (RM) have been recognized as an important component of quality assurance/quality control. A total of 43 intercomparison exercises were organized and 37 RM were produced for marine radioactivity studies. All important marine matrices were covered, e.g., seawater, marine sediments of different chemical compositions, fish, shellfish and seaplants. RM were prepared from samples collected at contaminated sites (e.g., the Irish Sea, the Baltic Sea, the Arabian Sea, Mururoa and Bikini Atolls, etc.) as well as from sites affected only by global fallout (e.g., the Pacific Ocean). Available RM are listed in the IAEA biennial catalogue and can be purchased at a minimal price. An overview of prepared RM for radionuclides in marine matrices is presented and discussed in more detail.     

Instrumental developments in organic mass spectrometry

Summary Mass spectrometry is a conglomerate of numerous technical and methodological approaches and recently, new developments in all its fields occur rather frequent. The stimulation has at least two different major sources: on the one hand the requirements in environmental analytical chemistry enforce an increasing sensitivity accompanied by the necessity to construct small, affordable spectrometers. On the other hand, modern biochemistry needs not only sensitivity, but new, compatible inlet techniques to solve the analytical problems in biotechnology, molecular biology and medical sciences. Consequently, small detectors for gas and liquid chromatography with almost inconceivable sensitivity and high performance spectrometers to handle large molecules up to several ten thousand daltons have been developed. New desorption techniques with atom and ion beams or lasers have been designed, several new chromatographic techniques are now compatible with MS, only to name capillary zone electrophoresis, isotachophoresis and even thin layer chromatography. Todays analyzers are small quadrupoles or ion traps, time of flight instruments, ion cyclotrons or arrangement of electrostatic and magnetic sector fields in numerous possible orders and combinations (MS/MS). Very recently, even the detector systems experience a revolution from the electron multipliers to simultaneous detection systems based on array detector devices, which improves the detection capability by orders of magnitude particularly for the analysis of large molecules such as biopolymers.Every passing hour brings the solar system forty-three thousand miles closer to globular cluster M13 in Hercules — and still there are some misfits who insist that there is no such thing as progressRansom K. Ferm from: The Sirens of Titan, Kurt Vonnegut, Jr.[1]     

Recent developments in atomizers for electrothermal atomic absorption spectrometry

This review first describes general requirements to be met for suitable base materials used to produce electrothermal atomizers (ETAs). In this connection the physical and chemical properties of adequate types of graphite and metals are discussed. Further, various atomizer designs, their temperature dynamics during atomization and general performance characteristics are critically reviewed. For end-heated Massmann-type atomizers, discussions are focused on recent developments of, e.g., contoured tubes to achieve improved temperature homogeneity over the tube length, second surface atomizers to realize temporally isothermal atomization and tubes with graphite filters to reduce interference effects. The state-of-the-art of platform equipped, side-heated atomizers with integrated contacting bridges are characterized mainly with respect to heating dynamics, as well as susceptibility to interference- and memory effects. In contrast to end-heated ETAs, the tube ends of side-heated ETAs are freely located in the furnace compartment and, as a consequence of this configuration, convective gas flows can easily appear. The magnitude and effect of these flows on analytical performance are discussed and measures are suggested, permitting operation under diffusion controlled conditions. A critical comparison of classical constant temperature atomizers with state-of-the-art platform equipped ETAs is made and from this it is concluded that future ETA developments are likely to involve only minor modifications aiming at, e.g., the reduction of cycling times or the improvement of tube surface properties.