Chemistry Reference
In-Depth Information
45. Altshuller, A.P. (1954). The electronegativi-
ties and some electron affinities of copper,
zinc, and gallium subgroup elements.
J.
Chem. Phys.
,
22
,765-765.
46. Allred, A.L. (1961). Electronegativity val-
ues from thermochemical data.
J. Inorg.
Nucl. Chem.
,
17
, 215.
47. Mulliken, R.S. (1935) Electronic structures
of molecules XI. Electroaffinity, molecu-
lar orbitals and dipole moments.
J. Chem.
Phys
.,
3
, 573-585.
48. Putz, M.V. (2006). Systematic formulations
for electronegativity and hardness and their
atomic scales within density functional soft-
ness theory.
Int. J. Quantum Chem
.,
106
,
361-389.
49. Putz, M.V. (2008).
Absolute and chemical
electronegativity and hardness
. Nova Sci-
ence Publishers, New York.
50. Ghosh, D.C. (2005). A new scale of electro-
negativity based on absolute radii of atoms.
J. Theoret. Comput. Chem
.,
4
, 21-33.
51. Ghosh, D.C. and Gupta, K. (2006). A new
scale of electronegativity of 54 elements
of periodic table based on polarizability of
atoms.
J. Theoret. Comput. Chem
.,
5
, 895-
911.
53. Ghosh, D.C. and Chakraborty, T. (2009).
Gordy's electrostatic scale of electronega-
tivity revisited.
J. Mol. Struct.
(THEO-
CHEM),
906
, 87-93.
52. Ghosh, D.C., Chakraborty, T., and Mandal,
B. (2009). Allred Rochow's scale of electro-
negativity revisited.
Theor. Chem. Account
.,
124
, 295-301.
54. Malone, J.G. (1933). The electric moment
as a measure of the ionic nature of covalent
bonds.
J. Chem. Phys.
,
1
, 197-199.
55. Mulliken, R.S. (1934). A new electroaf-
finity scale: Together with data on valence
states and on valence ionization potentials
and electron affinities.
J. Chem. Phys
.,
2
,
782-793.
56. Hund, F. (1931). Zur Frage der chemischen
Bindung.
Zeits. f. Physik
,
73
, 1-30.
57. Coulson, C.A. (1951). Critical survey of
the method of ionic-homopolar resonance.
Proc. Roy. Soc. London A
,
207
, 63-73.
58. Parr, R. G., Donnelly, R.A., Levy, M., and
Palke, W.E. (1978). Electronegativity, the
density functional viewpoint.
J. Chem.
Phys
.,
68
, 3801-3807.
59. Parr, R.G. and Pearson, R.G. (1983). Ab-
solute hardness: Companion parameter to
absolute electronegativity.
J. Am. Chem.
Soc
.,
105
, 7512-7516.
60. Bratsch, S.G. (1988). Revised Mulliken
electronegativities: I. Calculation and con-
version to Pauling units.
J. Chem. Educ.
,
65
(1), 34-41.
61. Bratsch, S.G. (1988) Revised Mulliken
electronegativities: II. Applications and
limitations.
J. Chem. Educ.
,
65
(3), 223-227.
62. Hinze, J. and Jaffe, H.H. (1962). Electro-
negativity. I. Orbital Electronegativity of
neutral atoms.
J. Am. Chem. Soc
.,
84
, 540-
546.
63. Hinze, J., Whitehead, M.A., and Jaffe, H.H.
(1963). Electronegativity. II. Bond and or-
bital electronegativities.
J. Am. Chem. Soc.
,
85
(2), 148-154.
64. Pearson, R.G. (1963). Hard and soft acids
and bases.
J. Am. Chem. Soc
.,
85
, 3533-
3539.
65. Gordy, W. (1946). A new method of deter-
mining electronegativity from other atomic
properties.
Phys. Rev.
,
69
, 604-607.
66. Pasternak, A. (1977). Electronegativity
based on the simple bond charge model.
Chem. Phys
.,
26
, 101-112.
67. Ray, N.K., Samuels, L., and Parr, R.G.
(1979). Study of electronegativity equaliza-
tion.
J. Chem. Phys
.,
70
, 3680-3684.
68. Politzer, P., Parr, R.G., and Murphy, D.R.
(1983). Relationships between atomic
chemical potentials, electrostatic poten-
tials, and covalent radii.
J. Chem. Phys.
,
79
,
3859-3871.
69. Islam, N. (2010). Correlation between the
electronegativity ansatz of Mulliken and
Gordy.
J. Mole. Struct
. (THEOCHEM),
947
, 123-123.
70. Walsh, A.D. (1951). Factors affecting bond
strengths. I. A possible new definition of
electronegativity.
Proc. Roy. Soc. London A
,
207
, 13-22.
71. Sanderson, R.T. (1951). An interpretation of
bond lengths and a classification of bonds.
Science
,
114
, 670-672.
Search WWH ::
Custom Search