Bond Selective Photochemistry at Metal Nanoparticle Surfaces: CO Desorption from Pt and Pd.
Isabel Barraza AlvarezTien LeHajar HosseiniSamji SamiraArik BeckJustin MarloweMatthew M MontemoreShu-Hua WangPhillip ChristopherPublished in: Journal of the American Chemical Society (2024)
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 examine the influence of continuous wave visible photon fluxes on the CO desorption rates from 1 to 2 nm diameter Pt and Pd nanoparticle surfaces supported on γ-Al 2 O 3 . Temperature-programmed desorption measurements quantified via diffuse reflectance infrared Fourier transform spectroscopy demonstrate that visible photon fluxes significantly enhanced the rate of CO desorption from Pt nanoparticles in a wavelength-dependent manner. 440 nm photons most efficiently promoted CO desorption from Pt nanoparticle surfaces, aligning with the excitation energy for the interfacial electronic transition within the Pt-CO bond. Conversely, visible photon fluxes had no measurable influence on CO desorption rates from Pd nanoparticle surfaces after accounting for photon-induced heating. Density functional theory calculations demonstrate that the Pt-CO bond exhibits a narrower LUMO resonance, stronger coupling between the photoexcitation and forces induced on the metal-C bond, and vibrational energy dissipation that more effectively couples to desorption as compared to Pd-CO. These results demonstrate the specificity photons provide in facilitating chemical reactions on metal nanoparticle surfaces and substantiate the idea that photon fluxes can steer processes and outcomes of catalytic reactions in ways not achievable by equilibrium heating.
Keyphrases
- density functional theory
- living cells
- biofilm formation
- iron oxide
- monte carlo
- molecular dynamics
- pseudomonas aeruginosa
- high resolution
- photodynamic therapy
- fluorescent probe
- metabolic syndrome
- energy transfer
- diabetic rats
- working memory
- low grade
- ionic liquid
- oxidative stress
- mass spectrometry
- insulin resistance
- weight loss
- walled carbon nanotubes