Unfeasible molecular frameworks:properties and applications
Provider: Grantová agentura ČR
Programme: Standardní projekty
Implementation period: 01.01.17 - 31.12.19
Workplace:
Fakulta chemicko-technologická - Katedra fyzikální chemie
Investigator: Bulánek RomanTeam member: Čičmanec Pavel | Pozdílková Eva
Description:
Molecular sieves prepared by a recently discovered synthetic pathway using 2D zeolites as nanoscale building blocks will be investigated by means of combined experimental and theoretical approaches. These materials may or may not obey criteria for traditional solvothermal synthesis based on the correlation between framework energy and density. The research effort will be mainly focused on unique properties of ?unfeasible? molecular frameworks leading to novel functions and new technological applications. The main goal of this project is (i) to develop precise and reliable methodology for evaluating properties of these materials and (ii) to determine how these properties can be utilized in technologically important processes such as gas adsorption, separation and catalytic applications.
Molecular sieves prepared by a recently discovered synthetic pathway using 2D zeolites as nanoscale building blocks will be investigated by means of combined experimental and theoretical approaches. These materials may or may not obey criteria for traditional solvothermal synthesis based on the correlation between framework energy and density. The research effort will be mainly focused on unique properties of ?unfeasible? molecular frameworks leading to novel functions and new technological applications. The main goal of this project is (i) to develop precise and reliable methodology for evaluating properties of these materials and (ii) to determine how these properties can be utilized in technologically important processes such as gas adsorption, separation and catalytic applications.
