TY  -  
T1  - Hybrid Photocatalysts with Earth-Abundant Plasmonic Materials 
SN  -  /  
UR  - URN:NBN:fi:hulib-202105242336; http://hdl.handle.net/10138/330237 
T3  -  
A1  - Heczko, Vilma 
A2  -  
PB  - Helsingin yliopisto 
Y1  - 2021 
LA  - eng 
AB  - Plasmonic catalysis utilises light energy to drive chemical reactions. Compared to conventional catalytic processes, which are run by high temperatures and pressures, light-driven processes can lower energy consumption and increase selectivity. Conventional plasmonic nanoparticles (Ag, Au) are relatively scarce and expensive, and therefore the use of materials with earth-abundant elements in plasmonic catalysis is widely pursued. Despite their good optical properties, plasmonic nanoparticles are... 
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IS  -  
SP  -  
OP  -  
KW  - catalysis; nanomaterials; Epäorgaaninen materiaalikemia; Inorganic Materials Chemistry; Oorganisk materialkemi; Materiaalitutkimuksen maisteriohjelma; Master's Programme in Materials Research; Magisterprogrammet i materialforskning 
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