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Silicalite
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CO2 Redox Reaction at High-Pressure and High-Temperature D
Investigation of Zeolite Systems: Focus on Fenton Chemistry Oxidative Stress from Asbestos Like Minerals and Zeolite-Based Dissolved Oxygen Sensing
Silicon Carbonate Phase Formed from Carbon Dioxide and Silica Under Pressure
Heterogeneous Catalyst Deactivation and Regeneration: a Review
A Database of Sources of Information on Mineral Reaction Kinetics
A Partial Glossary of Spanish Geological Terms Exclusive of Most Cognates
Density Functional Theory Study of Silica Zeolite Structures: Stabilities and Mechanical Properties of SOD, LTA, CHA, MOR, and MFI
Mechanism of Chemical Reactions Between Sio2 and CO2 Under Mantle Conditions † † ‡ § § ∥ Xue Yong, John S
United States Patent (19) (11) 4,061,724 Grose Et Al
Application of Mineral Sorbents for Removal of Petroleum Substances: a Review
Appendix 1 Calculation of a Chemical Formula from a Mineral Analysis
A Reevaluation of the Calorimetric Data for the Enthalpy of Formation of Some K- and Na-Bearing Silicate Minerals1
Computational Studies of Silica
High Pressure Synthesis of Novel, Zeolite Based Nano-Composite Materials M
Carbon Enters Silica Forming a Cristobalite-Type CO2–Sio2 Solid Solution
Research Article the Distribution and Composition Characteristics Of
United States Patent (19) 11 Patent Number: 6,106,803 Hasenzahl Et Al
Top View
Metal-Organic Frameworks
Biochemical Evolution. I. Polymerization on Internal, Organophilic Silica Surfaces of Dealuminated Zeolites and Feldspars (Biological Evolution͞volcanic Emissions)
Structural Evolution of CO2-Filled Pure Silica LTA Zeolite Under High-Pressure High-Temperature Conditions
Selective Oxidations Using Nanostructured Heterogeneous Catalysts
Understanding Ordered Silica Linking Topology and Energetics
Silicon Carbonate Phase Formed from Carbon Dioxide and Silica Under Pressure
Polymerization on Organophilic Silica-Rich Surfaces, Crystal
December 24, 2020 Publications of Prof. Alexandra NAVROTSKY
On the Mechanical Properties and Phase Behavior of Silica: a Simple Model Based on Low Coordination and Strong Association Matthew H