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Adsorption‐induced Symmetry Distortions in W@Au 12 Nanoclusters, Leading to Enhanced Hyperpolarizabilities
Author(s) -
Elgavi Sinai Hadassah,
Avnir David
Publication year - 2016
Publication title -
israel journal of chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.908
H-Index - 54
eISSN - 1869-5868
pISSN - 0021-2148
DOI - 10.1002/ijch.201600082
Subject(s) - hyperpolarizability , chemistry , nanoclusters , molecule , icosahedral symmetry , cluster (spacecraft) , adsorption , chemical physics , point reflection , computational chemistry , molecular symmetry , symmetry (geometry) , crystallography , condensed matter physics , organic chemistry , physics , geometry , mathematics , polarizability , computer science , programming language
We study how the adsorption of molecules on the stable gold icosahedral W@Au 12 nanocluster affects its structure, specifically the inversion symmetry, in relation to the hyperpolarizability of the cluster‐molecule complex. As adsorbed molecules, we selected the achiral physisorbed H 2 S and chemisorbed HS radical, the chiral physisorbed cysteine and the chemisorbed cysteine radical. We show that adsorption leads to deformation of W@Au 12 that removes the inversion symmetry of the cluster itself. Employing the continuous symmetry measure (CSM) methodology we are able to quantify the distortions, relative to the undisturbed cluster. We then evaluate the hyperpolarizabilities which emerge due to the lack of centrosymmetry. We find that large hyperpolarizabilities, by far exceeding those of the organic molecules, emerge as a result of the complexation of these two different species. This result is of relevance to studies of nonlinear optics, where methods of enhancing that property in molecules of choice are desired.