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Quantum Chemical Study of the Stability of Faujasite Type Zeolites
Published/Copyright:
September 30, 1980
Published Online: 1980-9-30
Published in Print: 1980-2-1
© Akademische Verlagsgesellschaft Wiesbaden
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Articles in the same Issue
- Quantum Chemical Study of the Stability of Faujasite Type Zeolites
- Calculations on Individual Ionic Partial Molal Volumes in Water: A Scaled Particle Theory Approach
- Ultrasonic Absorption in the Critical Mixture of Aniline—Methylcyclohexane
- Fluorescence of Adsorbed Aromatic Hydrocarbons. Molecular and Donor-Acceptor Interactions with the Surfaces of Al2O3, Ga2O3 and TiO2
- Comparative Study on the Reactivity of Polycrystalline and Single Crystal ZnO Surfaces: O2 and CO2 Interaction
- Phase Diagram of the Solid State System Ga2Se3—In2Se3
- Die unberuhigte Erstarrung von Aluminium, Silber, Kupfer und Stahl
- Generation of Dislocations in Iron Single Crystals by Hydrogen-Induced Stresses
- Anwendung von angeregten Kohlenstoffatomen zur Diamantsynthese
Articles in the same Issue
- Quantum Chemical Study of the Stability of Faujasite Type Zeolites
- Calculations on Individual Ionic Partial Molal Volumes in Water: A Scaled Particle Theory Approach
- Ultrasonic Absorption in the Critical Mixture of Aniline—Methylcyclohexane
- Fluorescence of Adsorbed Aromatic Hydrocarbons. Molecular and Donor-Acceptor Interactions with the Surfaces of Al2O3, Ga2O3 and TiO2
- Comparative Study on the Reactivity of Polycrystalline and Single Crystal ZnO Surfaces: O2 and CO2 Interaction
- Phase Diagram of the Solid State System Ga2Se3—In2Se3
- Die unberuhigte Erstarrung von Aluminium, Silber, Kupfer und Stahl
- Generation of Dislocations in Iron Single Crystals by Hydrogen-Induced Stresses
- Anwendung von angeregten Kohlenstoffatomen zur Diamantsynthese
