Information Technology Reference
In-Depth Information
14. Carrol, F. A.; Perspectives on Structure and Mechanism in Organic Chemistry. New
York: Brooks-Cole;
1998
.
15. Zhao, J.; Zhao, C. R.; Proton transfer reaction rate constants between hydronium ion
(H3O+) andvolatile organic compounds.
Atmos. Environ
.
2004
,
38,
2177.
16. Shan, Y.; et al. A conserved protonation-dependent switch controls drug binding in the
Abl kinase.
PNAS
.
2009
,
106,
139-144.
17. Rabenstein, B.; and Knapp, E.;
Biophys. J
.
2001
,
80,
1141-1150.
18. Lias, S. G.; Liebman, J. F.; and Levine, R. D.; Evaluated gas phase basicity and proton
afinity of molecules; heat of formation of protonated molecules.
J. Phys. Chem. Ref.
Data
.
1984
,
13,
695-808.
19. Munson, M. S. B.; and Franklin, J. L.; Energetics of some gaseous oxygenated organic
ions.
J. Phys. Chem
.
1964
,
68,
3191-3196.
20. Harrison, A. G.; Ivko, A.; and Raalte, D. V.; Energetics of formation of some oxygen-
ated ions and the proton affinities of carbonyl compounds.
Can. J. Chem
.
1966
,
44,
1625-1632.
21. Beauchamp, J. L.; and Buttrill, Jr. S. E.; Proton Affinities of H
2
S and H
2
O.
J. Chem.
Phys
.
1968
,
48,
1783-1789.
22. Haney, M. A.; and Franklin, J. L.; Mass spectrometric determination of the proton af-
finities of various molecules.
J. Phys. Chem.
1969
,
73,
4328-4331.
23. Aue, D. H.; Webb, H. M.; and Bowers, M. T.; Quantitative relative gas-phase basici-
ties of alkylamines. Correlation with solution basicity.
J. Am. Chem. Soc
.
1972
,
94,
4726-4728.
24. Watanabe, K.; Nakayama, T.; and Mottl, J. R.; Ionization potentials of some mol-
ecules.
J. Quantum. Spectrosc. Radiat. Transfer.
1962
,
2,
369-382.
25. Long, J.; and Munson, B.; Proton affinities of some oxygenated compounds.
J. Am.
Chem. Soc.
1973
,
95,
2427-2432.
26. Aue, D. H.; Webb, H. M.; and Bowers, M. T.; Quantitative proton affinities, ioniza-
tion potentials, and hydrogen affinities of alkylamines.
J. Am. Chem. Soc.
1976
,
98,
311-317.
27. Doiron, C. E.; Grein, F.; Mcmahon, T. B.; and Vasudevan, K.; An
abinitio
and ion
cyclotron resonance study of the protonation of borazine.
Can. J. Chem.
1979
,
57,
1751-1757.
28. Lee, T. H.; Jolly, W. L.; Bakke, A. A.; Weiss, R.; and Verkade, J. G.; On correlat-
ing phosphorus core binding energies, phosphorus lone pai; ionization potentials, and
proton affinities of tervalent phosphorus compounds.
J. Am. Chem. Soc
.
1980
,
102,
2623-2636.
29. Eades, R. A.; Scanlon, K.; Ellenberger, M. R.; Dlxon, D. A.; and Marynlck, D. S.;
The proton afflnity of ammonia. A theoretical determination.
J. Phys. Chem.
1980
,
84,
2840-2842.
30. Bene, J. E. D.; Frlsch, M. J.; Raghavacharl, K.; and Pople, J. A.;
Molecular orbital
study of some protonated bases
. J. Phys. Chem.
1982
,
86,
1529-1535.
31. Lohr, L. L.; Protonic counterpart of electronegativity as an organizing principle for
acidity and basicity.
J. Phys. Chem.
1984
,
88,
3607-3611.
32. McAllister, T.; Ion—molecule reactions and proton affinities of methyl thio- and iso-
thiocyanate.
Int. J. Mass Spectrom. Ion Phys.
1974
,
15,
303-310.
Search WWH ::
Custom Search