-
reaction mechanisms of catalysts in plasma and demonstrate the rational design of plasma catalysts for CO2 hydrogenation. As a PhD student, you will compare the interaction of catalytically active metals
-
structures, as well as environmental factors. Using these new models, you will probe how defects affect the electronic and mechanical properties of the system, and assess the effect of ambient environment
-
)” at the Advanced Research Center for Nanolithography (ARCNL). Project goal In the SURPLAS project, we will determine the surface reaction mechanisms of catalysts in plasma and demonstrate the rational design of
-
have (or soon will have) a MSc physics or applied physics. Knowledge about fluid mechanics and/or experimental laser physics is advantageous. Programming skills (Python) are welcomed. Good verbal and
-
will probe how defects affect the electronic and mechanical properties of the system, and assess the effect of ambient environment on thermodynamic, electrochemical, and mechanical stability. About the
-
) light for nanolithography. Qualifications You have (or soon will have) a MSc physics or applied physics. Knowledge about fluid mechanics and/or experimental laser physics is advantageous. Programming