Guolin Zhao scite author profile

It is quite appealing but challenging to predict and synthesize new nonlinear optical (NLO) materials with exceptional performance. Herein, the different Sn4 cluster core structures and third-order NLO properties are studied through electronic structure, excited hole–electron, bonding character, and aromaticity analysis. As a result, Sn4 clusters with ring core structure (Sn4-R) not only have the smallest E gap, the largest UV–vis response intensity, but also the strongest third-order NLO response in our work. As proved by natural bond orbitals’ (NBO) analysis, electron localization function (ELF), and adaptive natural density partitioning (AdNDP), the Sn4 4+ has two in-plane four center-two electron (4c-2e) Sn–Sn σ-bonds, resulting in a good delocalization. For the first time, delocalization of metal cluster cores in tin clusters that is beneficial to the third-order NLO response is proposed, which provides a new guidance to design and prepare third-order NLO materials.

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Phase behavior of metastable liquid silicon at negative pressure:Ab initiomolecular dynamics

Zhao

Yan

et al. 2016

Phys. Rev. B

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Guolin Zhao

In situ construction of hierarchical core–shell Fe3O4@C nanoparticles–helical carbon nanocoil hybrid composites for highly efficient electromagnetic wave absorption

Pressure dependence of structural and dynamical properties in melt sulfur: Evidence for two successive chain breakages

Tin Metal Cluster Compounds as New Third-Order Nonlinear Optical Materials by Computational Study

Phase behavior of metastable liquid silicon at negative pressure:Ab initiomolecular dynamics

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