Reaction mass spectrometry

The reaction of (308) with thiophenols gives [TcO(SPh)4] (89) in better yields than by direct reaction with [TcOCy . With the sterically more crowded 2,3,5,6-tetramethyl-benzenethiol (Htmbt, (314)), the Tc-organoimido core is retained and the complex [Tc(NPh)(tmbt)4] is formed and can be identified by mass spectrometry. Reaction with P(CgH4-2-SH)3 (H3PS3, (315)) gives the five-coordinate Tc complex [Tc(PS3)(PPh3)] (316)." ... 

Mass spectrometry. Reaction of OH to form an ion, HS04, which can be measured by mass spectrometry was first demonstrated by Eisele and Tanner (1991). Figure 11.45 is a schematic diagram of this approach (Tanner et al., 1997). Air is sampled through an inlet system described in detail by Eisele et al. (1997) and mixed with isotopically labeled 34SOz, forming H24S04 via reactions discussed in Chapter 8.C.2 ... 

Absorption spectrophotometry Fluorescence methods Atomic-absorption methods Flame photometry Neutron activation analysis Emission spectroscopy Spark source mass spectrometry Reaction gas chromatography of chelates using electron-capture detection... 

Most ion-molecule techniques study reactivity at pressures below 1000 Pa however, several techniques now exist for studying reactions above this pressure range. These include time-resolved, atmospheric-pressure, mass spectrometry optical spectroscopy in a pulsed discharge ion-mobility spectrometry [108] and the turbulent flow reactor [109]. 

Freiser B S 1988 Fourier transform mass spectrometry Techniques for the Study of Ion-Molecule Reactions ed J M Farrar and W H Saunders (New York Wiley-Interscience)... 

In contrast to IR and NMR spectroscopy, the principle of mass spectrometry (MS) is based on decomposition and reactions of organic molecules on theii way from the ion source to the detector. Consequently, structure-MS correlation is basically a matter of relating reactions to the signals in a mass spectrum. The chemical structure information contained in mass spectra is difficult to extract because of the complicated relationships between MS data and chemical structures. The aim of spectra evaluation can be either the identification of a compound or the interpretation of spectral data in order to elucidate the chemical structure [78-80],... 

Reaction mechanisms, infrared spectroscopy, and mass spectrometry ... 

Molecular ion (Section 13 22) In mass spectrometry the species formed by loss of an electron from a molecule Molecular orbital theory (Section 2 4) Theory of chemical bonding in which electrons are assumed to occupy orbitals in molecules much as they occupy orbitals in atoms The molecular orbitals are descnbed as combinations of the or bitals of all of the atoms that make up the molecule Molecularity (Section 4 8) The number of species that react to gether in the same elementary step of a reaction mechanism... 

This accurate measurement of the ratio of abundances of isotopes is used for geological dating, estimation of the ages of antiquities, testing athletes for the use of banned steroids, examining fine details of chemical reaction pathways, and so on. These uses are discussed in this book under various headings concerned with isotope ratio mass spectrometry (see Chapters 7, 14, 15, 16, 17, 47, and 48). 

SRM. selected reaction monitoring SSMS. spark source mass spectrometry... 

Knewstubb, P.F., Mass Spectrometry and Ion-Molecule Reactions, Cambridge University Press, London, 1969. Laeter, J.R. di. Applications of Inorganic Chemistry, Wiley, New York, 2001. 

Analytical methods iaclude thin-layer chromatography (69), gas chromatography (70), and specific methods for determining amine oxides ia detergeats (71) and foods (72). Nuclear magnetic resonance (73—75) and mass spectrometry (76) have also been used. A frequentiy used procedure for iadustrial amine oxides (77) iavolves titratioa with hydrochloric acid before and after conversion of the amine to the quaternary ammonium salt by reaction with methyl iodide. A simple, rapid quaHty control procedure has been developed for the deterrniaation of amine oxide and unreacted tertiary amine (78). 

Liquid Ghromatography/Mass Spectrometry. Increased use of Hquid chromatography/mass spectrometry (Ic/ms) for stmctural identification and trace analysis has become apparent. Thermospray Ic/ms has been used to identify by-products in phenyl isocyanate precolumn derivatization reactions (74). Five compounds resulting from the reaction of phenyUsocyanate and the reaction medium were identified two from a reaction between phenyl isocyanate and methanol, two from the reaction between phenyl isocyanate and water, and one from the polymerisation of phenyl isocyanate. There were also two reports of derivatisation to enhance either the response or stmctural information from thermospray Ic/ms for linoleic acid hpoxygenase metabohtes (75) and for cortisol (76). 

Hypochlorous acid and chlorine monoxide coexist in the vapor phase (78—81). Vapor pressure measurements of aqueous HOCl solutions show that HOCl is the main chlorine species in the vapor phase over <1% solutions (82), whereas at higher concentrations, CI2O becomes dominant (83). The equihbtium constant at 25°C for the gas-phase reaction, determined by ir and uv spectrophotometry and mass spectrometry, is ca 0.08 (9,66,67,69). The forward reaction is much slower than the reverse reaction. 

No systematic study of the mass spectra of pyridopyrazines has been noted, but those of 2,3-dialkyl and 2,3-diaryl derivatives have been recorded 750MS97), and mass spectrometry has been used in the elucidation of problems in the reactions of pyrido[2,3-f ]pyrazines with amide ion (including use of and derivatives) (79JHC305), and of pyrido[2,3-f ]pyrazinium salts with indoles (78ZOR431). The mass spectra of some 1-deazaflavins have been recorded (74JCS(P1)1965). 

N-fluorine displacement, 7, 272 1-Azetine, 2-alkoxy-nucleophilic reactions, 7, 271 1-Azetine, 2-aryl-mass spectrometry, 7, 268 nucleophilic reactions, 7, 271 1-Azetine, 2-chIoro-nucleophilic reactions, 7, 271... 

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