Chemistry Reference
In-Depth Information
References
1
1. Jensen, W.B. (1996). Electronegativity from
Avogadro to Pauling.
J. Chem. Educ.
,
73
,
11-20.
2. Avogadro, A. (1809). Idees sur Iacidite et
Ialcalinite.
J. Phys. Chim. Hist. Nat
.,
69
,
142-148.
3. Morselli, M. (1984).
Amedeo Avogadro: A
scientific biography
. Kluwer, Dordrecht.
4. Pierson, S. (1984). Avogadro and his work:
Amedeo Avogadro,
Science
,
226
, 432-433.
5. Berzelius, J.J. (1813). An explanatory state-
ment of the notions or principles upon
which the systematic arrangement is found-
ed which was adopted as the basis of an es-
say on chemical nomenclature.
J. Nat. Phil.
Chem. Arts
(Nicolson's J.),
34
, 142-146,
240-246, 313-319.
6. Berzelius, J.J. (1819).
Essai Sur La Theorie
Des Proportions Chimiques Et Sur Linflu-
ence Chemique
(French Edition). Kessinger
Publishing, Paris.
7. Jorpes, J.E. (1966).
Jac Berzelius: His life
and work
. Almqvist and Wiklsell, Stock-
holm.
8. Melhado, E.M. (1981).
Jacob Berzelius:
The emergence of his chemical system
. Uni-
versity of Wisconsin, Madison,WI.
9. Russell, C.A. (1963). The electrochemical
theory of Berzelius.
Ann. Sci.
,
19
, 117-145.
10. Pauling, L. (1932). The nature of the chemi-
cal bond IV. The energy of single bonds and
the relative electronegativity of atoms.
J.
Am. Chem. Soc.
,
54
, 3570-3582.
11. Pauling, L. (1960).
The nature of chemical
bond
. Cornell University Press, Ithaca.
12. Allred, A.L. and Rochow, E.G. (1958).
Electronegativity of carbon, silicon, germa-
nium, tin and lead.
J. Inorg. Nucl. Chem.
,
5
,
269-288.
13. Allen, L.C. (1989). Electronegativity is the
average one-electron energy of the valence-
shell electrons in ground-state free atoms.
J.
Am. Chem. Soc.
,
111
, 9003-9014.
14. Allen, L.C. (1992). Extension and comple-
tion of the periodic table.
J. Am. Chem. Soc.
,
114
, 1510-1511.
15. Huheey, J.E., Keiter, E.A., and Keiter, R.L.
(1983).
Inorganic chemistry: Principles of
structure and reactivity,
3rd ed. Harper &
Row, New York.
16. Frenking, G. and Krapp, A. (2007). Uni-
corns in the world of chemical bonding
models.
J. Comput. Chem.
,
28
, 15-24.
17. Ghosh, D.C. and Islam, N. (2010). A quest
for the algorithm for evaluating the molecu-
lar hardness.
Int. J. Quantum Chem
., DOI:
10.1002/qua.22499 [Early View].
18. Ghosh, D.C. and Islam, N. (2010). Whether
there is a hardness equalization principle
analogous to the electronegativity equaliza-
tion principle--A quest.
Int. J. Quantum
Chem
., DOI: 10.1002/qua.22508 [Early
View].
19. Ghosh, D.C. and Islam, N. (2010). Determi-
nation of some descriptors of the real world
working on the fundamental identity of the
basic concept and the origin of the electro-
negativity and the global hardness of atoms.
Part-1, Evaluation of internuclear bond
distance of some heteronuclear diatomics,
Int. J. Quantum Chem
., DOI: 10.1002/
qua.22500 [Early View].
20. Ghosh, D.C. and Islam, N. (2010). Determi-
nation of some descriptors of the real world
working on the fundamental identity of the
basic concept and the origin of the electro-
negativity and the global hardness of atoms.
Part-2. Computation of the dipole moments
of some heteronuclear diatomics.
Int. J.
Quantum Chem.
, DOI: 10.1002/qua.22651
[Early View].
21. Ghosh, D.C. and Islam, N. (2010). Charge
transfer associated with the physical process
of hardness equalization and the chemical
event of the molecule formation and the di-
pole moments.
Int. J. Quantum Chem.
, DOI:
10.1002/qua.22653 [Early View].
22. Ghosh, D.C. and Islam, N. (2011). Whether
electronegativity and hardness are manifest
Search WWH ::
Custom Search