Ionocovalent Model Methodology
Yonghe Zhang
American Huilin Institute http://www.amhuilin.net/
Ionocovalency model (IC) includes quantum parameters, sub-models and dual parameter groups, we can calculate all electron configuration data from 1s to nf, from it:
IC = n*(Iav /R)½ rc-1
or in some cases by using the ultimate ionization energy Iz instead of Iav, we can get more valuable results:
IC = n*(Iz /R)½ rc-1
and we can explain almost all chemical phenomena from IC model:
IC (Iz , rc , n*, Iav , rc-1, n*rc-1, Z*) = I ( Iz )C(n*rc-1) = n*(Iav/R)½ rc-1
where
Ultimate ionization energy: Iz, from spectroscopy
Covalent radius: rc, from X-ray diffraction
Effective principal quantum number:
n* = n* 0.85, 1.99, 2.89, 3.45, 3.85, 4.36, 4.99.
Ionicity: Iav= n-1∑ni=1 Ii
Covalency: rc-1
Special covalency: n*rc-1
Effective nuclear charge: Z* = n*( Iz /R)½
IC-potential: n*(Iav/R)½ rc-1
IC model: I ( Iz )C(n*rc-1) = n*(Iav/R)½ rc-1
Dual Method:
IC (Iz , rc , n*, Iav , rc-1, n*rc-1, Z*) = I ( Iz )C(n*rc-1) = n*(Iav/R)½ rc-1
Above all data of chemical elements you can get from Ionocovalent Bond Parameters, Functions and Scales
or Table 1 and Chart 1: Download PDF Full-Text
Zhang, Y. Ionocovalency and Applications 1. Ionocovalency Model and Orbital Hybrid Scales. Int. J. Mol. Sci. 2010,11, 4381-4406