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Mass spectrometry studies

Chang C-C and Winograd N 1989 Shadow-cone-enhanced secondary-ion mass-spectrometry studies of Ag(110) Rhys. Rev. B 39 3467... [Pg.319]

Schlager H and Arnold F 1985 Balloon-borne fragment ion mass spectrometry studies of stratospheric positive ions unambiguous detection of H (CH3CN), (H20)-clusters Pianet. Space Sc/. 33 1363-6... [Pg.828]

Jones, F.R., Interfacial aspects of glass fibre reinforced plastics. In Jones, F.R. (Ed.), Interfacial Phenomena in Composite Materials. Butterworths, London, 1989, pp. 25-32. Chaudhury, M.K., Gentle, T.M. and Plueddemann, E., Adhesion mechanism of poly(vinyl chloride) to silane primed metal surfaces. J. Adhes. Sci. Technol, 1(1), 29-38 (1987). Gellman, A.J., Naasz, B.M., Schmidt, R.G., Chaudhury, M.K, and Gentle, T.M., Secondary neutral mass spectrometry studies of germanium-silane coupling agent-polymer interphases. J. Adhes. Sci. Technol., 4(7), 597-601 (1990). [Pg.709]

The chemical structure of 8 was also confirmed by mass spectrometry studies (98MI89). [Pg.269]

Fillman, L. M., and T ang, S. C., Thermal Decompositon of Metal Carbonyls A Thermogravimetry-Mass Spectrometry Study, ThermochimicaActa, 75 71-84 (1984)... [Pg.181]

Bender, M.M. 1968 Mass spectrometry studies ofcarbon-13 variations in com and others grasses. Radiocarbon 10 468-472. [Pg.85]

Later, successful determination of the molecular structure of the free allyl radical was achieved by high-temperature electron diffraction, augmented by mass spectrometry studies (Vaida et al., 1986). The structural parameters obtained for the allyl radical were rcc 142.8 pm, rcH 106.9 pm, accc 124.6°, ccH 120.9°. This was the first electron diffraction study of an unstable organic molecule. [Pg.39]

Garrido, J.L. et al., The main non-polar chlorophyll c from Emiliania huxleyi (Prymnesiophyceae) is a chlorophyll c2-monogalactosyldiacylglyceride ester a mass spectrometry study, J. Physiol., 36, 497, 2000. [Pg.45]

Housmans THM, Wonders AH, Koper MTM. 2006. Structure sensitivity of methanol electrooxidation pathways on platinum An on-hne electrochemical mass spectrometry study. J Phys ChemB 110 10021 10031. [Pg.126]

Jambunathan K, Jayataman S, HiUier AC. 2004. A multielectrode electrochemical and scanning differential electrochemical mass spectrometry study of methanol oxidation on electrodepos-ited PORUy. Langmuir 20 1856 1863. [Pg.458]

Heinen M, Chen Y-X, Jusys Z, Behm RJ. 2006. Room temperature COad desorption/exchange kinetics on Pt electrodes—A combined in-situ IR and mass spectrometry study. ChemPhysChem 8 2484. [Pg.501]

A polymeric chain structure is frequently observed for zinc carboxylates. Basic zinc carboxylates form a common tetrameric species, and altering conditions can result in an interconversion between the basic and regular carboxylates.369 Mass spectrometry studies have been carried out... [Pg.1176]

Recently the proposed Oz evolution mechanism was supported by the results of a DEMS (Differential Electrochemical Mass Spectrometry) study performed by Wohlfahrt-Mehrens and Heitbaum [71] on Ru electrodes. Using this mass spectroscopic technique and lsO labeling for the determination of reaction products during 02 evolution, it could be verified that the oxygen of the oxide formed on Ru takes part in the 02 evolution process. The same observation was made for Ru02 electrodes when using labeled H2lsO. [Pg.102]

Eudy, L. W. Walla, M. D. Hudson, J. R. Morgan, S. L. Fox, A. Gas chromatography-mass spectrometry studies on the occurrence of acetamide, pro-pionamide, and furfuryl alcohol in pyrolyzates of bacteria, bacterial fractions, and model compounds. I. Anal. Appl. Pyrolysis 1985,7,231-247. [Pg.58]

Magee, J. T. Yousefi-Mashouf, R. Hindmarch, J. M. Duerden, B. I. A pyrolysis mass spectrometry study of the non-pigmented Prevotella species. I. Med. Microbiol. 1992,37,273-282. [Pg.337]

Helyer, R. J. Kelley,T. Berkeley, R. C. W. Pyrolysis mass spectrometry studies on Bacillus anthracis, Bacillus cereus and their close relatives. Zbl. Bakt. 1997, 285, 319-328. [Pg.342]

B. Molecular Beam-Photoionization-Time-of-Flight Mass Spectrometry Studying Dynamics and Bonding... [Pg.189]

Lazof DB, Goldsmith JKG, Rufty TW, Suggs C, Linton RW. The preparation of cryosections from plant tissue an alternative method appropriate for secondary ion mass spectrometry studies of nutrient tracers and trace metals. JMicrosc 1994 176 99-109. [Pg.290]

Leinweber P, Schulten HR. Differential thermal analysis, thermogravimetry and in-source pyrolysis-mass spectrometry studies on the formation of soil organic matter. Thermochim. Acta 1992 200 151-167. [Pg.334]

Cristoni, S. and Bernardi, L. R. (2003). Development of new methodologies for the mass spectrometry study of bioorganic macromolecules. Mass Spectrometry Reviews 22 369 106. [Pg.358]

J. Wang, S. Wasmus, and R.F. Savinell, Evaluation of ethanol, 1 -propanol, and 5-propanol in a direct oxidation polymer-electrolyte fuel cell—A real-time mass spectrometry study, J. Electrochem. Soc. 142(12), 4218-4224 (1995). [Pg.323]

Field, F.H. Munson, M.S.B. Reactions of Gaseous Ions. XIV. Mass Spectrometric Studies of Methane at Pressures to 2 Torr. J. Am. Chem. Soc. 1965, 87, 3289-3294. Hunt, D.F. Ryan, J.F.I. Chemical Ionization Mass Spectrometry Studies. I. Identification of Alcohols. Tetrahedron Lett. 1971,47,4535-4538. [Pg.351]

Evans, W.J. DeCoster, D.M. Greaves, J. Field Desorption Mass Spectrometry Studies of the Samarium-Catalyzed Polymerization of Ethylene Under Hydrogen. Macromolecules 1995,28, 7929-7936. [Pg.378]

See other pages where Mass spectrometry studies is mentioned: [Pg.155]    [Pg.189]    [Pg.54]    [Pg.8]    [Pg.128]    [Pg.60]    [Pg.40]    [Pg.141]    [Pg.337]    [Pg.370]    [Pg.371]    [Pg.372]    [Pg.39]    [Pg.112]    [Pg.256]    [Pg.194]    [Pg.551]    [Pg.556]    [Pg.589]    [Pg.592]    [Pg.629]    [Pg.632]    [Pg.20]    [Pg.21]   
See also in sourсe #XX -- [ Pg.30 , Pg.103 ]



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