Issue 8, 2016

Structural transition upon hydrogenation of B20 at different charge states: from tubular to disk-like, and to cage-like

Abstract

Extensive first-principles theoretical investigations indicate that neutral B20 undergoes a dramatic structural transition upon partial hydrogenation, from the tubular D2d B20 (1), to the disk-like C2v B20H2 (4), and then to the cage-like C2 B20H4 (7). Both the singly charged C2v B20 (2) and C2 B20H2 (5) favor 2D disk-like planar structures with a filled hexagon (B7) at the center, while C2 B20H4 (8) follows its neutral counterpart with a 3D cage-like geometry. All the doubly charged C2v B202− (3), C2 B20H22− (6), and C1 B20H42− (9) turn out to prefer planar or quasi-planar 2D structures over 3D geometries, with the most stable B20H42− (9) possessing a unique hexagon hole (B6) at the center. Detailed CMO and AdNDP analyses reveal that both the perfect planar B202− (3) and B20H2 (4) possess concentric dual π aromaticity, with two π-electrons delocalized over the filled hexagon B7 at the center and ten π-electrons delocalized between the filled B7 and the B13 outer ring, each separately conforming to 4n + 2 Hückel's rule. They are therefore the boron analogues of coronene (D6h C24H12). The quasi-planar C2 B20H22− (6) and C1 B20H42− (9) also appear to be π aromatic with one π system following the 4n + 2 rule. The B20H42− (9) structure with a hexagon hole may serve as the embryo for monolayer boron α sheet. Both the cage-like C2 B20H4 (7) and C2 B20H4 (8) appear to be 3D aromatic with the large negative NICS values of −51.5 and −55.5 ppm, respectively. The structural changes from 1 to 9 reflect a competition between 2D and 3D aromaticities in these clusters, depending on the extent of hydrogenation and electronic charge states. The PES spectra of B20H2 (5) and B20H4 (8) are predicted to facilitate their future experimental characterizations and production.

Graphical abstract: Structural transition upon hydrogenation of B20 at different charge states: from tubular to disk-like, and to cage-like

Supplementary files

Article information

Article type
Paper
Submitted
15 Dec 2015
Accepted
14 Jan 2016
First published
18 Jan 2016

Phys. Chem. Chem. Phys., 2016,18, 6013-6020

Structural transition upon hydrogenation of B20 at different charge states: from tubular to disk-like, and to cage-like

B. Bai and H. Bai, Phys. Chem. Chem. Phys., 2016, 18, 6013 DOI: 10.1039/C5CP07731A

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