Quarterly Journal of the Chemical Society of London, Volume 7 |
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Page 1253
... increase in the negative charges on both the X and Y atoms . Schuster 15 finds little change in the charge density at the Y atom and an increase at the X atom . We first thought that this increase in charge densities on both X and Y ...
... increase in the negative charges on both the X and Y atoms . Schuster 15 finds little change in the charge density at the Y atom and an increase at the X atom . We first thought that this increase in charge densities on both X and Y ...
Page 1486
... increase in 6p asymmetry occurs together with an increase in 6s electron density . This is consistent with increased donation by the ligand into an sp hybrid orbital . On this basis we can arrange the ligands in order of increasing ...
... increase in 6p asymmetry occurs together with an increase in 6s electron density . This is consistent with increased donation by the ligand into an sp hybrid orbital . On this basis we can arrange the ligands in order of increasing ...
Page 1939
... increase in the o - donor power of the ligands results in an increased s - electron density at the 57Fe nucleus . It therefore seems likely that [ Pt ( 6 ) ( 0 ) ] 2 will increase in a similar fashion , and thus oppose the changes in J ...
... increase in the o - donor power of the ligands results in an increased s - electron density at the 57Fe nucleus . It therefore seems likely that [ Pt ( 6 ) ( 0 ) ] 2 will increase in a similar fashion , and thus oppose the changes in J ...
Contents
Inorganic physical and theoretical chemistry | 1001 |
J ROBINSON and C H L KENNARD | 1008 |
Nearestneighbour model for transfer of electronic excitation energy | 1016 |
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absorption acid Acta adducts Amer anion aqueous assigned atoms band benzene bond calculated cancrinite carbon cation Chem chemical chemical shifts Chemistry chloride cm.¹ co-ordination cobalt(II complex compounds concentration configuration crystals density effect electron energy enthalpy equation equilibrium ethanol experimental Figure fluorine formation frequency H₂O hydrogen i.r. spectrum increase Inorg intensity interaction iron(II k₁ ligand linear magnetic measured metal methaemoglobins method methyl mixture modes mole mole-¹ molecular molecule n.m.r. spectra niobium nitrogen Nujol observed obtained orbitals oxidation oxygen parameters peak perchlorate perchloric acid phenyl phosphine phosphorus Phys potassium prepared present proton pyridine radical Raman rate constant reaction resonance ring room temperature salt sample shift shown sodalite sodium solid solution solvent species spectra structure studied sulphur symmetry Table thiocyanate tion trans tributyl phosphate triphenylphosphine values vanadium(IV vibrations X-ray zeolite