Spatial-Energy Principles of the Processes for Complex Structure Formation

Frontmatter -- Contents -- Preface / Zakharov, A. Yu. -- Introduction -- Notation conventions accepted -- Chapter 1. Problems of isomorphism and phase-formation -- Chapter 2. Spatial-energy parameter (P-parameter) -- Chapter 3. Experimental evidence of spatial-energy criterion of isomorphism and solubility -- Chapter 4. Temperature characteristics of solid solution expansion with the help of P-parameter (at given temperature) -- Chapter 5. Spatial-energy criterion of compound formation -- Chapter 6. Other applications of P-parameter in inorganic chemistry and chemistry of solids -- Chapter 7. Kinetics and phase-formation in fast physic-chemical processes -- Conclusion -- General conclusions -- Literature -- Appendix 1. P-parameter additive properties -- Appendix 2. Isomorphism of elementary systems -- Appendix 3. P0-parameters of valence orbitals of neutral atoms in basic state (calculated via atom ionization energy) -- Appendix 4. P-parameters of some atoms calculated via electron bond energy according to Fischer -- APPENDIX 5. Calculation of Po-parameter of some atoms using bond energy of electrons according to ESCA [110] -- APPENDIX 6. Calculations of errors when estimating solubility of components using P-parameter method -- Appendix 7. Methods of experiments conducted for determining the solubility boundaries of complex system components -- APPENDIX 8. Analogous comparisons of Lagrangian and Hamiltonian functions with spatial-energy parameter