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Karaman Abdelhak Boudjahem Abdel-Ghani Boulbazine Mouhssin Gueid Abdelhak 《Structural chemistry》2020,31(1):203-214
Structural Chemistry - DFT calculations have been carried out over the IrnV (n = 2–10) clusters in order to predict their stability, electronic, and catalytic properties. Based on the... 相似文献
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In this paper, we investigate the electronic and magnetic properties of Cu-doped nickel clusters by means of density functional theory. The stabilities of these clusters have also been studied in terms of the binding energies, second-order difference of energies, fragmentation energies and HOMO–LUMO energy gaps. The obtained results reveal that the N4Cu, N5Cu and Ni7Cu clusters are found to be more stable that than all other clusters. Higher HOMO–LUMO gap was observed for Ni5Cu cluster (2.265 eV), indicating its higher chemical stability. A half-metallic behaviour has also been observed for the NinCu clusters, which suggests that these clusters can be employed as nanocatalysts for several catalytic processes, particularly for hydrogenation and dehydrogenation reactions. The magnetism calculations show that the magnetic moment is mostly located on the Ni atoms, and the contribution of the Cu atom to the total magnetic moment in the NinCu clusters is very small. Furthermore, partial density of states analysis indicates that the 3d orbitals in Ni atoms are mostly responsible for the magnetic behaviour of these clusters, and the s orbitals have a very little contribution to the total magnetic moment. 相似文献
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The stability and electronic properties of the Rh-doped ruthenium clusters and their reactivity towards NH3 molecule have been studied using DFT calculations with the BLYP-D3/SDD level of theory. The results show that the doping of Ru clusters with Rh atom improves the catalytic performances of pure Ru clusters, and the Ru5Rh and Ru7Rh clusters are assumed to be less reactive than their neighbours. The interaction of NH3 with clusters exhibits that the Ru atoms are preferred adsorption sites for the NH3 molecule, and the adsorption takes place between the Ru atom of clusters and the N atom of NH3 molecule. The adsorption energies of NH3 on RunRh clusters are in the range of ?101.5 to ?218.4?kJ?mol?1, suggesting a strong adsorption between both species. Upon adsorption process, the electronic properties of the RunRh clusters were substantially changed. The variation of Eg (ΔEg) for the RunRh (n?≥?7) clusters is very important (ΔEg?≥?55%), suggesting that these clusters are very sensitive to the NH3 molecule. Hence, these clusters can be employed as nanosensors for the detection of the NH3 gas. 相似文献
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Structural Chemistry - In this work, the stability and electronic properties of the Ru-doped germanium clusters were investigated with DFT calculations at the TPSS/SDD level. The adsorption of the... 相似文献
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