Bond Selective Photochemistry at Metal Nanoparticle Surfaces: CO Desorption from Pt and Pd

Abstract: The use of visible photon fluxes to influence catalytic reactions on metal nanoparticle surfaces has attracted attention based on observations of reaction mechanisms and selectivity not observed under equilibrium heating. These observations suggest that photon fluxes can selectively impact the rates of certain elementary steps, creating nonequilibrium energy distributions among various reaction pathways. However, quantitative studies validating these hypotheses on metal nanoparticle surfaces are lacking. We ex… Show more

“…There is an abundance of reports suggesting that light can drive surface chemistry on metal surfaces. , The CO–Pt bond can be selectively activated by resonant photoexcitation of electronic transitions between bonding and antibonding states . Therefore, we proceed to assess whether plasma-produced photons can indeed reduce the BE in the Pt–CO system …”

Nonthermal Plasma Activation of Adsorbates: The Case of CO on Pt

“…There is an abundance of reports suggesting that light can drive surface chemistry on metal surfaces. , The CO–Pt bond can be selectively activated by resonant photoexcitation of electronic transitions between bonding and antibonding states . Therefore, we proceed to assess whether plasma-produced photons can indeed reduce the BE in the Pt–CO system …”

Nonthermal Plasma Activation of Adsorbates: The Case of CO on Pt