Direct solid state NMR observation of the 105Pd nucleus in inorganic compounds and palladium metal systems

Hooper, T.J.N. and Partridge, T.A. and Rees, G.J. and Keeble, D.S. and Powell, N.A. and Smith, M.E. and Mikheenko, I.P. and Macaskie, L.E. and Bishop, P.T. and Hanna, J.V. (2018) Direct solid state NMR observation of the 105Pd nucleus in inorganic compounds and palladium metal systems. Physical Chemistry Chemical Physics, 20 (41). pp. 26734-26743. ISSN 1463-9076

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Abstract

The ability to clearly relate local structure to function is desirable for many catalytically relevant Pd-containing systems. This report represents the first direct 105Pd solid state NMR measurements of diamagnetic inorganic (K2Pd(iv)Cl6, (NH4)2Pd(iv)Cl6 and K2Pd(iv)Br6) complexes, and micron- and nano-sized Pd metal particles at room temperature, thereby introducing effective 105Pd chemical shift and Knight shift ranges in the solid state. The very large 105Pd quadrupole moment (Q) makes the quadrupole parameters (CQ, ηQ) extremely sensitive to small structural distortions. Despite the well-defined high symmetry octahedral positions describing the immediate Pd coordination environment, 105Pd NMR measurements can detect longer range disorder and anisotropic motion in the interstitial positions. The approach adopted here combines high resolution X-ray pair distribution function (PDF) analyses with 105Pd, 39K and 35Cl MAS NMR, and shows solid state NMR to be a very sensitive probe of short range structural perturbations. Solid state 105Pd NMR observations of ∼44-149 μm Pd sponge, ∼20-150 nm Pd black nanoparticles, highly monodisperse 16 ± 3 nm PVP-stabilised Pd nanoparticles, and highly polydisperse ∼2-1100 nm biomineralized Pd nanoparticles (bio-Pd) on pyrolysed amorphous carbon detect physical differences between these systems based on relative bulk:surface ratios and monodispersity/size homogeneity. This introduces the possibility of utilizing solid state NMR to help elucidate the structure-function properties of commercial Pd-based catalyst systems. © 2018 the Owner Societies.

Item Type:
Journal Article
Journal or Publication Title:
Physical Chemistry Chemical Physics
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1600/1606
Subjects:
Departments:
ID Code:
129439
Deposited By:
Deposited On:
07 Dec 2018 10:46
Refereed?:
Yes
Published?:
Published
Last Modified:
20 Oct 2020 06:46