Interplay between bonding and magnetism in the binding of NO to Rh clusters

Ghosh, Prasenjit; Pushpa, Raghani; Gironcoli, Stefano de; Narasimhan, Shobhana

doi:10.1063/1.2913242

Cited by 26 publications

(42 citation statements)

References 58 publications

(84 reference statements)

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“…Out of the six Rh atoms present in the unit cell, the spin polarization of each of the two Rh atoms to which N is attached is negligible, while the spin polarization of those atoms to which O is attached is reduced by about 81% and the spin polarization of the two Rh atoms which are furthest from the NO is reduced by about 28%. Similar effects have also been observed previously by us for NO adsorbed on small Rh clusters 33 and by Hass et al 34 in their studies of NO adsorption on a hypothetical monolayer of Rh atoms. Apart from the fact that the latter group of authors worked with a monolayer of Rh ͑i.e., there was no substrate͒, there are other differences between our calculations and theirs: they did the calculations for NO adsorbing in the VB geometry alone, fixed the Rh-Rh distance at the value for bulk Rh, and did not relax the coordinates of NO.…”

Section: E Case (Iv)-monolayer Of Rh On Mgo(100) At Mgo Lattice Conssupporting

confidence: 89%

Effective coordination as a predictor of adsorption energies: A model study of NO on Rh(100) and Rh/MgO(100) surfaces

et al. 2009

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We have studied the adsorption of NO, and the coadsorption of N and O, on four physical and hypothetical systems: unstrained and strained Rh͑100͒ surfaces and monolayers of Rh atoms on strained and unstrained MgO͑100͒ surfaces. We find that as we go from Rh͑100͒ to Rh/Mg0͑100͒, via the other two hypothetical systems, the effective coordination progressively decreases, the d band narrows and its center shifts closer to the Fermi level, and the strength of adsorption and coadsorption increases. Both the strain and the presence of the oxide substrate contribute significantly to this. However, charge transfer is found to play a negligible role due to a canceling out between donation and back-donation processes. Our results suggest that lowering the effective coordination of Rh catalysts by strain, roughening, or the use of inert substrates might lower activation energies for the dissociation of NO.

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Section: E Case (Iv)-monolayer Of Rh On Mgo(100) At Mgo Lattice Conssupporting

confidence: 89%

Effective coordination as a predictor of adsorption energies: A model study of NO on Rh(100) and Rh/MgO(100) surfaces

et al. 2009

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“…Clusters of rhodium have been the subjects of continuing experimental and theoretical investigations due to interest in the catalytic properties of the metal. For example, Ghosh and coworkers [1] suggested that Rh clusters are good catalysts for NO reduction. Furthermore, the high activity of rhodium clusters and surfaces for the adsorption and decomposition of N 2 O, CO had been investigated by far-infrared multiple photon dissociation experiments and DFT calculations [2][3][4][5][6].…”

Section: Introductionmentioning

confidence: 99%

Electronic structure and thermochemical properties of neutral and anionic rhodium clusters Rhn, n=2–13. Evolution of structures and stabilities of binary clusters RhmM (M=Fe, Co, Ni; m=1–6)

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Hung

Thiem

et al. 2015

Computational and Theoretical Chemistry

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“…Here I will only mention the most important aspects keeping in mind that magnetism is our primary focus. For Rh 5 , GGA and B3LYP calculations find the sextet and octet spin states in the square pyramid structure to be very close in energy [61,63,64,69,76]. The energy difference is only a few tens of meV.…”

Section: Smaller Rhodium Clustersmentioning

confidence: 87%

“…But Bae et al [63] found the ground state to be a bent rhombus, with the angle of bent nearly 90 0 , in a septet state. Ghosh et al [76] also found the ground state to be a septet but a tetrahedron. These authors also found a quintet square, and a singlet tetrahedron.…”

Section: Smaller Rhodium Clustersmentioning

confidence: 94%

Magnetism in Simple Metal and 4d Transition Metal Clusters

Sen

2016

J Clust Sci

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In this review article I discuss two aspects of magnetism in small metal clusters. The first question discussed is whether simple metal clusters, that obey electronic shell models and mimic properties of elemental atoms, also obey Hund's rule of maximum spin multiplicity. The second question is whether small clusters of 4d transition metal atoms, that are non-magnetic in the bulk, have magnetic ground states. The question arises because calculations showed that small V clusters are magnetic although the bulk metal is not. We discuss known results on Rh clusters in detail to show that small clusters are generally magnetic, but it is difficult to unequivocally identify the ground state due to the presence of many isomers and spin states that are very close in energy.

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Interplay between bonding and magnetism in the binding of NO to Rh clusters

Cited by 26 publications

References 58 publications

Effective coordination as a predictor of adsorption energies: A model study of NO on Rh(100) and Rh/MgO(100) surfaces

Effective coordination as a predictor of adsorption energies: A model study of NO on Rh(100) and Rh/MgO(100) surfaces

Electronic structure and thermochemical properties of neutral and anionic rhodium clusters Rhn, n=2–13. Evolution of structures and stabilities of binary clusters RhmM (M=Fe, Co, Ni; m=1–6)

Magnetism in Simple Metal and 4d Transition Metal Clusters

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