4.6 Article

Quantum chemical study of structural, linear, and nonlinear optical response of pure silver clusters Agn (n=2-10)

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ELSEVIER SCI LTD
DOI: 10.1016/j.mssp.2023.107558

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Silver cluster; Isotropic polarizability; Anisotropic polarizability; Photoelectron spectrum; Non-covalent interaction; First hyperpolarizability

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In this study, the structure-property relationship of silver clusters Agn (n = 2-10) is explored using a density functional method. The results show that higher clusters exhibit new energy levels and unusual behavior, with Ag5 and Ag9 showing high first hyperpolarizability values. A two-level model is applied to explain the first hyperpolarizability. This research allows for the potential use of silver clusters in photovoltaic applications and enhancing nonlinear optical response.
In this study, pure silver clusters Agn (n = 2-10) through a density functional method is explored to analyze the structure-property relationship with the linear and nonlinear optical response. The total density of state (TDOS), photoelectron spectra (PES) and non-covalent interaction (NCI) analyses are also performed to get structural information regarding the bonding environment. New energy levels developed as the silver atoms in higher clusters which are indicated by lowering the HOMO energy level. Among these clusters, Ag5 and Ag9 showed unusual behaviour with higher first hyperpolarizability values (1076 and 2223 au, respectively). The results of hyperpolarizability are compared with the external reference molecule para-nitroaniline (p-NA). Additionally, a two-level model has been applied to rationalize the first hyperpolarizability. The primary outcomes of this study enable the scientist to use silver clusters for photovoltaic applications or as a dopant to enhance the nonlinear optical response.

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