Mass-Spectrometric Studies of the Synthesis, Energetics, and Cryogenic Stability of the Lower Boron Hydrides
- 15 February 1967
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 46 (4) , 1444-1453
- https://doi.org/10.1063/1.1840872
Abstract
Ionization‐efficiency measurements on species produced in the pyrolysis of B2H6 have led to A (B+), A (BH+), A (BH2+), A (BH3+), and A (B2H5+) from B2H6 and to A (B+), A (BH+), A (BH2+), and I (BH3) from BH3. These experimental results have permitted a rather complete development of the energetics of the BH3; B2H6 system and its related radicals and ions, including the important symmetric dissociation energy, D (BH3–BH3), which was found to be 2.56 eV. BH2 was not observed in these experiments and thermodynamic and kinetic arguments, using the results of this investigation, predict that BH2 should be of little significance in the pyrolysis mechanism. Using a cryogenically cooled mass‐spectrometric system the existence of BH3 and BH2F as stable cryochemicals was explored at temperatures down to 55°K with negative results.Keywords
This publication has 23 references indexed in Scilit:
- Mass Spectrometric Investigation of the Pyrolysis of Boranes. IV. Diborane1Journal of the American Chemical Society, 1966
- Refrigerated Inlet Arrangement for Mass Spectrometric Studies of Unstable Species at Low TemperaturesReview of Scientific Instruments, 1966
- Kinetics of the Decomposition of BH3PF3 and Related Compounds. A Revised Estimate of the Dissociation Energy of Diborane1Journal of the American Chemical Society, 1966
- Reaction of Boroxine with BF3(g). Infrared Spectrum and Stability of HBF2(g)1The Journal of Physical Chemistry, 1965
- The Dissociation of BH3CO into BH3 and CO1Journal of the American Chemical Society, 1965
- Mass-Spectrometric Investigation of the Low-Pressure Dissociation of B2H6The Journal of Chemical Physics, 1964
- Direct Detection of the Borane Molecule and the Boryl Radical by Mass SpectrometryJournal of the American Chemical Society, 1964
- The Interaction of Boron Trichloride with DiboraneInorganic Chemistry, 1964
- CryochemistryCryogenics, 1962
- Exploratory Study, by Low-Temperature X-Ray Diffraction Techniques, of Diborane and the Products of a Microwave Discharge in DiboraneThe Journal of Chemical Physics, 1959