The study of the internal and collision energy dependence of the two microscopic reaction mechanisms in the ion–molecule reactions MH++MH→MH+2+M (MH=CH3F, CH3Cl, CH4)
Author:
Publisher
AIP Publishing
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy
Link
http://aip.scitation.org/doi/pdf/10.1063/1.458742
Reference33 articles.
1. Product distributions and rate constants for ion‐molecule reactions in water, hydrogen sulfide, ammonia, and methane
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3. Product distributions and rate constants for ion‐molecule reactions in water, hydrogen sulfide, ammonia, and methane
4. Ionization of the ammonia dimer: Proton transfer in the ionic state
5. State selected ion–molecule reactions by a coincidence technique. XV. Hydrogen atom abstraction as an electron jump followed by proton transfer in the ND+3 (v)+NH3 and NH+3 (v)+ND3 reactions
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1. Electronic state dependence of the ion–molecule reaction CH3CN+ + CH3CN → CH4CN+ + CH2CN: threshold electron–secondary ion coincidence (TESICO) and direct ab initio molecular dynamics study;Physical Chemistry Chemical Physics;2010
2. Mass spectra and gas-phase ion chemistry of halogen-containing compounds;PATAI'S Chemistry of Functional Groups;2009-12-15
3. State Selected Charge Transfer and Chemical Reactions by the Tesico Technique;Advances in Chemical Physics;2007-03-14
4. Gas-Phase Ion−Molecule Reactions of Metal−Carbide Cations MCn+ (M=Y and La; n=2, 4, and 6) with Benzene and Cyclohexane Investigated by FTICR Mass Spectrometry and DFT Calculations;The Journal of Physical Chemistry A;2004-12-09
5. State-Selected Ion-Molecule Reactions Studied by the Threshold Electron-Secondary Ion Coincidence (TESICO) Technique, Ar+(2P3/2,2P1/2) + HCl;Bulletin of the Chemical Society of Japan;2002-03
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