CORDIS Project
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This project focuses on understanding how metal nanoparticles generate hot carriers through localized surface plasmon resonances. By developing methods that consider atomic structures, it aims to enhance applications in fields like photovoltaics and photocatalysis.
Metal nanoparticles absorb and scatter light much more than their physical size would suggest.
This is caused by localized surface plasmon resonances formed upon light illumination in the nanoparticle.
The plasmon resonances are characterized by collective oscillations of free electrons in the particle, but soon after its formation, typically on a femtosecond timescale, the collective plasmon mode decays via emission or via non-radiative creation of electron-hole pairs.
As a result of the latter…
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