Phase Transitions and Self-Organization in Electronic and Molecular Networks

Some Mathematics.- Mathematical Principles of Intermediate Phases in Disordered Systems.- Reduced Density Matrices and Correlation Matrix.- The Sixteen-Percent Solution: Critical Volume Fraction for Percolation.- The Intermediate Phase and Self-organization in Network Glasses.- Glasses and Supercooled Liquids.- Evidence for the Intermediate Phase in Chalcogenide Glasses.- Thermal Relaxation and Criticality of the Stiffness Transition.- Solidity of Viscous Liquids.- Non-Ergodic Dynamics in Supercooled Liquids.- Network Stiffening and Chemical Ordering in Chalcogenide Glasses: Compositional Trends of Tg in Relation to Structural Information From Solid and Liquid State NMR.- Glass Transition Temperature Variation as a Probe for Network Connectivity.- Floppy Modes Effects in the Thermodynamical Properties of Chalcogenide Glasses.- The Dalton-Maxwell-Pauling Recipe for Window Glass.- Local Bonding, Phase Stability and Interface Properties of Replacement Gate Dielectrics, Including Silicon Oxynitride Alloys and Nitrides, and Film ‘Amphoteric’ Elemental Oxides and Silicates.- Experimental Methods for Local Structure Determination on the Atomic Scale.- Zeolite Instability and Collapse.- Metal-Insulator Transitions.- Thermodynamics and Transport Properties of Interacting Systems with Localized Electrons.- The Metal-Insulator Transition in Doped Semiconductors: Transport Properties and Critical Behavior.- Metal-Insulator Transition in Homogeneously Doped Germanium.- High Temperature Super conductors.- Experimental Evidence for Ferroelastic Nanodomains in HTSC Cuprates and Related Oxides.- Role of Sr Dopants in the Inhomogeneous Ground State of La2-xSrxCuO4.- Universal Phase Diagrams and “Ideal” High Temperature Superconductors: HgBa2CuO4+?.- Coexistence ofSuperconductivity and Weak Ferromagnetism in Eu1.5Ce0.5RuSr2Cu2O10.- Quantum Percolation in High Tc Superconductors.- Superstripes.- Electron Strings in Oxides.- High-Temperature Superconductivity is Charge-Reservoir Superconductivity.- Electronic Inhomogeneities in High-Tc Superconductors Observed by NMR.- Tailoring the Properties of High-Tc and Related Oxides.- Self-Organization in Proteins.- Designing Protein Structures.