Effect of Ligands on the Geometric and Electronic Structure of Au13 Clusters
نویسندگان
چکیده
We have carried out scalar relativistic density functional theory calculations within the projector augmented wave scheme and the pseudopotential approach, to examine the effect of ligands on the geometric and electronic structure of four Au13 isomers: planar, flake, cuboctahedral, and icosahedral clusters. We find, in agreement with previous theoretical calculations, that for the clean cluster the planar geometry has the lowest total energy while the icosahedral and cuboctahedral structures undergo Jahn-Teller distortion. On the other hand, when ligated by phosphines, the icosahedron is found to assume the lowest total energy. The rationale for the stabilization of the icosahedron in the ligated Au13 cluster is traced to the ligand-induced charge transfer from the surface Au-Au to Au-ligand bonds leading to the formation of a strong Au-ligand covalent bond and introduction of a compressive strain which further weakens the Au-Au bonds.
منابع مشابه
Geometric and Electronic Structures of Vanadium Sub-nano Clusters, Vn (n = 2-5), and their Adsorption Complexes with CO and O2 Ligands: A DFT-NBO Study
In this study, electronic structures of ground state of pure vanadium sub-nano clusters, Vn (n=2-5), and their interactions with small ligands for example CO and triplet O2 molecules are investigated by using density functional theory (DFT) calibration at the mPWPW91/QZVP level of theory. The favorable orientations of these ligands in interaction with pure vanadium sub-nano clusters were determ...
متن کاملThe Effect of Substrates / Ligands on Metal Nanocatalysts Investigated By Quantitative Z- Contrast Imaging and High Resolution Electron Microscopy
Our direct density function-based simulations of Ru-, Ptand mixed Ru-Pt clusters on carbon-based supports reveal that substrates can mediate the PtRu5 particles [1]. Oblate structure of PtRu5 on C has been found [2]. Nevertheless, the cluster-substrate interface interactions are still unknown. In this work, we present the applications of combinations of quantitative zcontrast imaging and high r...
متن کاملDensity functional theory calculations on Fe2S2 clusters: Effect of ligand environment on geometric/electronic structure and reduction potential
The Fe2S2 clusters in nature are generally coordinated to the peptide backbone using thiolate ligands (from cysteines). A known variation of these are the imidazole (from histidine) coordinated active sites of Riesky proteins. Recently, a few newer modifications have been observed, e.g., the arginine coordinated cluster in biotin synthases. Very recently, a cysteine persulfide coordinated clust...
متن کاملDensity Functional Study on Stability and Structural Properties of Cu n clusters
In this research DFT/B3LYP method has been employed to investigate the geometrical structures,relative stabilities, and electronic properties of Cun (n=3–10) clusters for clarifying the effect of sizeon the properties. Through a careful analysis of the successive binding energies, second-orderdifference of energy and the highest occupied-lowest unoccupied molecular orbital energy gaps as afunct...
متن کاملAdenine molecule interacting with golden nanocluster: A dispersion corrected DFT study
The interaction between nanoparticles and biomolecules such as protein andDNA is one of the major instructions of nanobiotechnology research. In this study,we have explored the interaction of adenine nucleic base with a representativegolden cluster (Au13) by using dispersion corrected density functional theory(DFT-D3) within GGA-PBE model of theory. Various active sites ...
متن کامل