First principle study of the interaction of elemental Hg with small neutral, anionic and cationic Pde?‘? (e?‘? = 1-6) clusters

Nadir Bouarissa1; Shamoon Ahmad Siddiqui1 2

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First principle study of the interaction of elemental Hg with small neutral, anionic and cationic Pde?‘? (e?‘? = 1-6) clusters

机译：关于元素汞与小中性，阴离子和阳离子Pde？′相互作用的第一原理研究。（e？’？= 1-6）簇

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Density functional theory (DFT)-based calculations have been performed so as to study the interaction of elemental mercury (Hg) with small neutral, cationic and anionic palladium clusters (Pde?‘?, e?‘? = 1-6). Results of these calculations clearly indicate that frontier molecular orbital (FMO) theory is a useful method to predict the selectivity of Hg adsorption. Binding energies of Hg on cationic Pde?‘? clusters are generally found to be greater than those on neutral and anionic clusters. Results of natural bond orbital (NBO) analysis show that the flow of electrons in the neutral and charged complexes is mainly due to s orbitals of Hg. NBO analysis also indicates that, in most of the cases, the binding energies of Hg with Pdn clusters are directly proportional to charge transfer, i.e., greater the charge transfer, higher is the binding energy.

机译：已经进行了基于密度泛函理论（DFT）的计算，以研究元素汞（Hg）与小的中性，阳离子和阴离子钯簇（Pde？'?, e？'？= 1-6）的相互作用。这些计算结果清楚地表明，前沿分子轨道（FMO）理论是预测汞吸附选择性的有用方法。汞在阳离子Pde上的结合能？通常发现该簇比中性和阴离子簇上的簇大。自然键轨道（NBO）分析的结果表明，中性和带电配合物中的电子流动主要归因于汞的s轨道。 NBO分析还表明，在大多数情况下，Hg与Pdn簇的结合能与电荷转移成正比，即电荷转移越大，结合能就越高。

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《Journal of Chemical Sciences》 |2013年第6期|共页
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Nadir Bouarissa1; Shamoon Ahmad Siddiqui1 2;
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First principle study of the interaction of elemental Hg with small neutral, anionic and cationic Pde?‘? (e?‘? = 1-6) clusters

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