Nonlinearity of Colloid Systems : Oxyhydrate Systems.

Intro -- Nonlinearity of Colloid Systems: Oxyhydrate Systems -- Preface -- Table of Contents -- Table of Contents -- 1. Introduction -- 2. Genesis of Gel Oxyhydrate Systems of D- and F-Elements in the Course of their Formation Second Section's Title -- 2.1 Modelling of Autowave Processes in Forming Oxyhydrate Gels of Heavy Metals -- 2.2 Modelling of Active, Easily Excitable Gel Media -- 2.3 Research of Gels in Active, Easily Excitable Medium by Molecular Dynamics and Monte-Carlo Methods -- 2.4 Genesis of Oxyhydrate and Phosphate Gels (Experimentally Observed) -- 2.5 Conclusions -- 3. Periodic Phenomena of the Organization of Gel Oxyhydrate Systems -- 3.1 Analysis of Structurization Processes in Gel Systems -- 3.2 Quantization of Attractor (Pacemaker) Radii -- 3.3 Conclusions -- 4. Dilatancy Effect as A Specific Property of Periodicity of Gel Oxyhydrates -- 4.1 An Effect of Periodic Dilatancy in Oxyhydrate Gel Systems -- 4.2 Volumetric Dilatancy and Pacemaker Sizes -- 4.3 Conclusions -- 5. Liesegang Operator as a Reflection of Nonlinearpropertiesof Oxyhydrate Gel Systems. 5.1 Liesegang Rings as a Universal Gross-Property Ofgelpolymer Systems. -- 5.2 Self-Coordination (Self-Assembly) of Gel Fragments -- 5.3 Physico-Chemical Interpretation of Liesegang Operator -- 5.4 Conclusions -- 6. Mesophase-Like Behaviour of Gel Systems -- 6.1 Formation of the Structured Elements of Zirconium Oxyhydrate Gels under Non-Equilibrium Conditions -- 6.2 Study of Polymeric Fragments of Niobium Oxyhydrate -- 6.3 Properties of the Liquid-Crystalline State of Gel Oxyhydrates that Develop with Time -- 6.4 Liquid-Crystal Features of Zirconium Oxyhydrate Gels. Model Studies -- 7. The Chromatic Effect of some Oxyhydrate Gels -- 7.1 Colouring of Oxyhydrate Gels of Heavy Metals -- 7.2 Study of Absorption Spectra of [ZrO(OH)2]n Polymer by Quantum Chemical Methods.

7.4 Conclusions -- 8. Experimental Studies of Optical Properties of Gels. Observed Chromatic Effect . 8.1 Optical Properties of Zirconium Oxyhydrate -- 8.2 Structural Features and Optical Properties of Polymeric Gels of Yttrium Oxyhydrate -- 8.3 Structural Evolution of Oxyhydrates of Heavy Metals and Electromagnetic Radiation -- 8.4 Synthesis and Properties of the Coloured Gels of Zirconium Oxyhydrate -- 8.5 Coloured Gels of Niobium Oxyhydrate -- 8.6 Effect of the Nature of Metal and Shear Strains on the Optical Spectra and Colouring of Oxyhydrate Gels -- 8.7 Synthesis of the Coloured Gels of Lanthanum and Yttrium Oxyhydrates -- 8.8 Conclusions -- 9. The Phisico-Chemical Nature of Polarisation of Living Gels of Heavy Metals Oxyhydrates -- 9.1 Introduction of Liesegang Operator, the Polarisation Operator -- 9.2 A Mechanism of Gel Polarization Conductivity. Rotational Motion of Polarization -- 9.3 Conclusions -- 10. The Influence of Electric, Magnetic and Electromagnetic Fields on the Structurization Processes of Yttrium Oxyhydrate -- 10.1 The Effect of the Static Magnetic and Electric Field on Gels -- 10.2 The Effect of Electromagnetic Radiation on Sorption Properties of Yttrium Oxyhydrate -- 10.3 The Effect of Electromagnetic Radiation on the Processes of Yttrium Oxyhydrate Formation -- 10.4 Conclusions -- 11. Nonlinear Sorption Properties of Oxyhydrate. 11.1 Experimental Studies of the Sorption System State "lanthanum Oxyhydrate - Own-Salt Solution" under Isothermal Conditions -- 11.2 Kinetics of the Process of Sorption-Peptization Self-Organization of Ytterbium and Gadolinium Oxyhydrate Gels -- 11.3 Kinetics of Sorption Processes in "zirconium Oxyhydrate - Yttrium Nitrate" Systems -- 11.4 Conclusion -- 12. Quantum Chemical Study Of The Structural Models Of Zirconium Oxyhydrate -- 12.1 Polymerisation of Zirconium Oxyhydrate Gels.

12.2 Hydration of Zirconium Oxyhydrate Gels -- 12.3 Creation of Macromolecular Formations of Zirconium Oxyhydrate -- 12.4 Conclusion -- 13. In Place of A Conclusion -- References.

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