A study of perspective inorganic compounds and materials
Provider: Univerzita Pardubice
Programme: Studentská grantová soutěž
Implementation period: 01.01.24 - 31.12.24
Workplace:
Fakulta chemicko-technologická - FCHT
Investigator: Vinklárek JaromírTeam member: Černošková Eva | Drašar Čestmír | Jambor Roman | Mošner Petr | Růžička Aleš | Vlček Miroslav | Wágner Tomáš
Description:
Group of materials under study will be compounds suitable for homogeneous and heterogeneous catalysis and cytostatics based on organometallic and coordination compounds. Study of organometallic and coordination compounds. At the synthetized organometallic compounds their structure and catalytic and biological properties will be investigated. Study of perspective inorganic materials will be devoted to new and non-traditional crystalline and amorphous materials for optoelectronics, optics and electronics (narrow-gap semiconductors, amorphous and glassy inorganic materials based on chalcogenides, phosphates and oxides, materials for electronic memories based on phase changes and ionic conductivity changes). For the oxide and phosphate glasses their basic physical properties will be determined as well as their chemical durability, thermal stability and their optical properties. The relations between their chemical composition, structure and properties will be evaluated. Chalcogenide glasses will be studied as bulk materials and also as thin films, which will be studied as perspective materials for their photoinduced changes and their possible applications. Preparation of micro- and nanostructural elements from thin chalcogenide films will done with the application of optical and electron lithography.
Group of materials under study will be compounds suitable for homogeneous and heterogeneous catalysis and cytostatics based on organometallic and coordination compounds. Study of organometallic and coordination compounds. At the synthetized organometallic compounds their structure and catalytic and biological properties will be investigated. Study of perspective inorganic materials will be devoted to new and non-traditional crystalline and amorphous materials for optoelectronics, optics and electronics (narrow-gap semiconductors, amorphous and glassy inorganic materials based on chalcogenides, phosphates and oxides, materials for electronic memories based on phase changes and ionic conductivity changes). For the oxide and phosphate glasses their basic physical properties will be determined as well as their chemical durability, thermal stability and their optical properties. The relations between their chemical composition, structure and properties will be evaluated. Chalcogenide glasses will be studied as bulk materials and also as thin films, which will be studied as perspective materials for their photoinduced changes and their possible applications. Preparation of micro- and nanostructural elements from thin chalcogenide films will done with the application of optical and electron lithography.
