Volume 5, Issue 1
Ab Initio Study on the Aromaticity of All-Metallic Anion $La^{2-}_4$

Yong Liu, Ming Xiao, Huai-Xing Wang & Xian-Xing Chi

J. At. Mol. Sci., 5 (2014), pp. 51-57.

Published online: 2014-05

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  • Abstract

We extended the aromaticity concept to all-metallic anion $La^{2-}_4$ and then performed Ab intio calculations (B3LYP/LANL2DZ, B3PW91/LANL2DZ andMP2/LANL2DZ) on the selected structures. The computed results indicate that anion $La^{2-}_4$ has two stable isomers: one is the bidentate $C_{2v}$ structure and another is the square planar $D_{4h}$ structure. The further analysis on energies shows that the square planar $D_{4h}$ structure is more stable than the bidentate $C_{2v}$ structure. The computed nucleus-independent chemical shifts (NICS) on the most stable $D_{4h}$ structure show that the square planar $La^{2-}_4$ ring exhibits higher degree of aromaticity. The detailed MOs analysis further reveals that the square planar $La^{2-}_4$ ring possesses four independent delocalized bonding systems, each has two electrons satisfying the $4n + 2$ electron counting rule of aromaticity, suggesting that these species have four-fold aromaticity.

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@Article{JAMS-5-51, author = {Liu , YongXiao , MingWang , Huai-Xing and Chi , Xian-Xing}, title = {Ab Initio Study on the Aromaticity of All-Metallic Anion $La^{2-}_4$}, journal = {Journal of Atomic and Molecular Sciences}, year = {2014}, volume = {5}, number = {1}, pages = {51--57}, abstract = {

We extended the aromaticity concept to all-metallic anion $La^{2-}_4$ and then performed Ab intio calculations (B3LYP/LANL2DZ, B3PW91/LANL2DZ andMP2/LANL2DZ) on the selected structures. The computed results indicate that anion $La^{2-}_4$ has two stable isomers: one is the bidentate $C_{2v}$ structure and another is the square planar $D_{4h}$ structure. The further analysis on energies shows that the square planar $D_{4h}$ structure is more stable than the bidentate $C_{2v}$ structure. The computed nucleus-independent chemical shifts (NICS) on the most stable $D_{4h}$ structure show that the square planar $La^{2-}_4$ ring exhibits higher degree of aromaticity. The detailed MOs analysis further reveals that the square planar $La^{2-}_4$ ring possesses four independent delocalized bonding systems, each has two electrons satisfying the $4n + 2$ electron counting rule of aromaticity, suggesting that these species have four-fold aromaticity.

}, issn = {2079-7346}, doi = {https://doi.org/10.4208/jams.031213.052613a}, url = {http://global-sci.org/intro/article_detail/jams/8290.html} }
TY - JOUR T1 - Ab Initio Study on the Aromaticity of All-Metallic Anion $La^{2-}_4$ AU - Liu , Yong AU - Xiao , Ming AU - Wang , Huai-Xing AU - Chi , Xian-Xing JO - Journal of Atomic and Molecular Sciences VL - 1 SP - 51 EP - 57 PY - 2014 DA - 2014/05 SN - 5 DO - http://doi.org/10.4208/jams.031213.052613a UR - https://global-sci.org/intro/article_detail/jams/8290.html KW - ab initio study, aromaticity, magnetic susceptibilities, nucleus-independent chemical shift (NICS). AB -

We extended the aromaticity concept to all-metallic anion $La^{2-}_4$ and then performed Ab intio calculations (B3LYP/LANL2DZ, B3PW91/LANL2DZ andMP2/LANL2DZ) on the selected structures. The computed results indicate that anion $La^{2-}_4$ has two stable isomers: one is the bidentate $C_{2v}$ structure and another is the square planar $D_{4h}$ structure. The further analysis on energies shows that the square planar $D_{4h}$ structure is more stable than the bidentate $C_{2v}$ structure. The computed nucleus-independent chemical shifts (NICS) on the most stable $D_{4h}$ structure show that the square planar $La^{2-}_4$ ring exhibits higher degree of aromaticity. The detailed MOs analysis further reveals that the square planar $La^{2-}_4$ ring possesses four independent delocalized bonding systems, each has two electrons satisfying the $4n + 2$ electron counting rule of aromaticity, suggesting that these species have four-fold aromaticity.

Yong Liu, Ming Xiao, Huai-Xing Wang & Xian-Xing Chi. (1970). Ab Initio Study on the Aromaticity of All-Metallic Anion $La^{2-}_4$. Journal of Atomic and Molecular Sciences. 5 (1). 51-57. doi:10.4208/jams.031213.052613a
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