Chemistry at Extreme Conditions

Abstract

Chapter 1. Pressure-Temperature Effects on Protein Conformational States. Chapter 2. High Pressure Effects in Molecular Bioscience. Chapter 3. Molecules to Microbes: In-Situ Studies of Organic Systems Under Hydrothermal Conditions. Chapter 4. Application of High Pressure in Inorganic and Bioinorganic Chemistry. Chapter 5. High Pressure Materials Research: Novel Extended Phases of Molecular. Chapter 6. Nitrogen-Containing Molecular Systems at High Pressures and Temperature. Chapter 7. Aqueous Chemistry in the Diamond Anvil Cell up to and Beyond the Critical Point of Water. Chapter 8. Solid Nitrogen at Extreme Conditions of High Pressure and Temperature. Chapter 9. Non-Equilibrium Molecular Dynamics Studies of Shock and Detonation Processes in Energetic Materials. Chapter 10. A Multi-Scale Approach to Molecular Dynamics Simulations of Shock Waves. Chapter 11. Plastic Deformation in High Pressure, High Strain Rate Shocked Materials: Dislocation Dynamics Analyses. Chapter 12. Shock-Induced Chemistry in Hydrocarbon Molecular Solids. Chapter 13. At the Confluence of Experiment and Simulation: Ultrafast Laser Spectroscopic Studies of Shock Compressed Energetic Materials. Chapter 14. The Equation of State and Chemistry at Extreme Conditions: Applications to Detonation Products. Chapter 15. Theoretical and Computational Studies of Energetic Salts (D.C. Sorescu et al.). Chapter 15. Theoretical and Computational Studies of Energetic Salts. Chapter 16. Computational Determination of the Energetics of Boron and Aluminum Combustion Reactions. Chapter 17. Chemistry of Detonation Waves in Condensed Phase Explosives.