Distinguishing surface adsorbed hydrogen from bulk-dissolved hydrogen in supported Pd nanoparticles using in situ Pd L₃-edge XANES

Abstract: Abstract. In situ X-ray absorption spectroscopy at the Pd L 3 edge was applied to determine the particle size effect on the formation of palladium hydride and on surface hydrogen adsorption at room temperature. Pd L 3 edge XANES spectra allow direct detection of hydride formation via a characteristic spectral feature caused by the formation of a Pd-H anti-bonding state. This feature showed strong particle size dependence. The L 3 edge spectra were reproduced using full multiple scattering analysis and density … Show more

“…The r -factors are typically smaller than 0.01, indicative of the overall good fitting quality. The structural parameters obtained for the initial hydrogen-rich atmospheres are in good agreement with the results of an earlier EXAFS study (at the L 3 -edge) of Pd/SiO 2 particles under similar conditions …”

“…Palladium incorporates hydrogen at random interstitial sites, causing lattice expansion and smaller distortions, but no transitions in the crystalline structure . This has been confirmed in several EXAFS studies of supported Pd particles. ,,, …”

“…The structural parameters obtained for the initial hydrogen-rich atmospheres are in good agreement with the results of an earlier EXAFS study (at the L 3 -edge) of Pd/SiO 2 particles under similar conditions. 83 The increased bond distances found in the hydrogen-rich atmospheres as compared to bulk palladium, the constant coordination numbers, and the increased Debye−Waller factors as compared to the ethylene-rich atmospheres are indicative of the formation of a palladium hydride phase. Palladium incorporates hydrogen at random interstitial sites, causing lattice expansion and smaller distortions, but no transitions in the crystalline structure.…”

“…58 This has been confirmed in several EXAFS studies of supported Pd particles. 63,64,69,83 The deintercalation and intercalation of hydrogen in the hydrogen-rich atmospheres during the forward and backward sequence, respectively, can be directly followed by the changes occurring in the bond distance. With the lattice expansion Δa and the bulk metal lattice constant a 0 the hydrogen content n of the palladium hydride phase PdH n can be determined via the subsequent equation, which has been shown to be valid over large pressure and temperature ranges: 84,85…”

Comparative in Operando Studies in Heterogeneous Catalysis: Atomic and Electronic Structural Features in the Hydrogenation of Ethylene over Supported Pd and Pt Catalysts

“…The r -factors are typically smaller than 0.01, indicative of the overall good fitting quality. The structural parameters obtained for the initial hydrogen-rich atmospheres are in good agreement with the results of an earlier EXAFS study (at the L 3 -edge) of Pd/SiO 2 particles under similar conditions …”

“…Palladium incorporates hydrogen at random interstitial sites, causing lattice expansion and smaller distortions, but no transitions in the crystalline structure . This has been confirmed in several EXAFS studies of supported Pd particles. ,,, …”

“…The structural parameters obtained for the initial hydrogen-rich atmospheres are in good agreement with the results of an earlier EXAFS study (at the L 3 -edge) of Pd/SiO 2 particles under similar conditions. 83 The increased bond distances found in the hydrogen-rich atmospheres as compared to bulk palladium, the constant coordination numbers, and the increased Debye−Waller factors as compared to the ethylene-rich atmospheres are indicative of the formation of a palladium hydride phase. Palladium incorporates hydrogen at random interstitial sites, causing lattice expansion and smaller distortions, but no transitions in the crystalline structure.…”

“…58 This has been confirmed in several EXAFS studies of supported Pd particles. 63,64,69,83 The deintercalation and intercalation of hydrogen in the hydrogen-rich atmospheres during the forward and backward sequence, respectively, can be directly followed by the changes occurring in the bond distance. With the lattice expansion Δa and the bulk metal lattice constant a 0 the hydrogen content n of the palladium hydride phase PdH n can be determined via the subsequent equation, which has been shown to be valid over large pressure and temperature ranges: 84,85…”

Comparative in Operando Studies in Heterogeneous Catalysis: Atomic and Electronic Structural Features in the Hydrogenation of Ethylene over Supported Pd and Pt Catalysts