Details

<p>Electron Spin Resonance Studies of Supercooled Water 1<br /> <i>By Debamalya Banerjee, Subray V. Bhat, and Dino Leporini</i></p> <p>Pressure-Driven Liquid–Liquid Transformations and Corresponding Bizarre Viscosity Behavior 29<br /> <i>By Vadim V. Brazhkin, Yoshinori Katayama, Masami Kanzaki, and Alexander G. Lyapin</i></p> <p>The Stability Limit and Other Open Questions on Water at Negative Pressure 51<br /> <i>By Frederic Caupin and Abraham D. Stroock</i></p> <p>Water-Like Anomalies of Core-Softened Fluids: Dependence on the Trajectories in (PρT ) Space 81<br /> <i>By Yu. D. Fomin and V. N. Ryzhov</i></p> <p>High-Frequency Dynamics of Liquids Through a Liquid–Liquid Transition: The Case of CS 101<br /> <i>By Valentina Maria Giordano and G. Monaco</i></p> <p>The Liquid–Liquid Phase Transition, Anomalous Properties, and Glass Behavior of Polymorphic Liquids 113<br /> <i>By Nicolas Giovambattista</i></p> <p>Amorphous ICES 139<br /> <i>By Nicolas Giovambattista, Katrin Amann-Winkel, and Thomas Loerting</i></p> <p>Water Proton Environment: A New Water Anomaly at Atomic Scale? 175<br /> <i>By A. Giuliani, M. A. Ricci, and F. Bruni</i></p> <p>Polymorphism and Anomalous Melting in Isotropic Fluids 189<br /> <i>By Gianpietro Malescio</i></p> <p>Transport and Dynamics in Supercooled Confined Water 203<br /> <i>By Francesco Mallamace, Carmelo Corsaro, Sow-Hsin Chen, and H. Eugene Stanley</i></p> <p>Water and Biological Macromolecules 263<br /> <i>By Francesco Mallamace, Carmelo Corsaro, Domenico Mallamace,</i> <i>H. Eugene Stanley, and Sow-Hsin Chen</i></p> <p>Polyamorphism and Liquid–Liquid Phase Transitions in Amorphous<br /> Silicon and Supercooled Al2O3–Y2O3 Liquids 309<br /> <i>By Paul F. McMillan, G. Neville Greaves, Mark Wilson, Martin C. Wilding, and Dominik Daisenberger</i></p> <p>Polyamorphism in Water 355<br /> <i>By Osamu Mishima</i></p> <p>Computer Simulations of Liquid Silica: Water-Like Thermodynamic and Dynamic Anomalies, and the Evidence for Polyamorphism 373<br /> <i>By Ivan Saika-Voivod and Peter H. Poole</i></p> <p>Polymorphism in Lattice Models 385<br /> <i>By Marcia M. Szortyka, Mauricio Girardi, Carlos E. Fiore, Vera B. Henriques, and Marcia C. Barbosa</i></p> <p>Cooperative Bond Ordering in Liquid: Its Link to Liquid Polymorphism and Water-Like Anomalies 399<br /> <i>By Hajime Tanaka</i></p> <p>Statistical Mechanical Approach to the Thermodynamic Stability of Clathrate Hydrates 421<br /> <i>By Hideki Tanaka and Masakazu Matsumoto</i></p> <p>Liquid–Liquid Phase Transition in Supercooled Silicon 463<br /> <i>By Vishwas V. Vasisht and Srikanth Sastry</i></p> <p>Similarities of the Collective Interfacial Dynamics of Grain Boundaries and Nanoparticles to Glass-Forming Liquids 519<br /> <i>By Hao Zhang and Jack F. Douglas</i></p> <p>Author Index 569</p> <p>Subject Index 611</p>

<p><b>H. EUGENE STANLEY</b> is the Professor of Physics, Chemistry, Biomedical Engineering, and Physiology (School of Medicine) at Boston University. His current research focuses on understanding the anomalous behavior of liquid water, and he has made contributions to understanding complex systems, such as quantifying correlations among the constituents of the Alzheimer brain. He is one of the founding fathers of econophysics and has won the prestigious Boltzmann Award and Julius Edgar Lilienfeld Prize, among other notable achievements.</p> <p><b>STUART A. RICE</b> received his master's and doctorate from Harvard University and was a junior fellow at Harvard for two years before joining the faculty of The University of Chicago in 1957, where he is currently the Frank P. Hixon Distinguished Service Professor Emeritus.</p> <p><b>AARON R. DINNER</b> received his bachelor's degree from Harvard University, after which he conducted postdoctoral research at the University of Oxford and the University of California, Berkeley. He joined the faculty at The University of Chicago in 2003.</p>

<p><b>The <i>Advances in Chemical Physics</i> series—the cutting edge of research in chemical physics</b></p> <p>The Advances in Chemical Physics series provides the chemical physics and physical chemistry fields with a forum for critical, authoritative evaluations of advances in every area of the discipline. Filled with cutting-edge research reported in a cohesive manner not found elsewhere in the literature, each volume of the Advances in Chemical Physics series presents contributions from internationally renowned chemists and serves as the perfect supplement to any advanced graduate class devoted to the study of chemical physics.</p> <p><b>This volume explores:</b></p> <ul> <li>Electron Spin Resonance Studies of Supercooled Water</li> <li>Water-like Anomalies of Core-Softened Fluids: Dependence on the Trajectories in (<i>P</i>, ϱ, <i>T</i>) Space</li> <li>Water Proton Environment: A New Water Anomaly at Atomic Scale?</li> <li>Polymorphism and Anomalous Melting in Isotropic Fluids</li> <li>Computer Simulations of Liquid Silica: Water-Like Thermodynamic and Dynamic Anomalies, and the Evidence for Polyamorphism</li> </ul>

US