Volleyballene

Volleyballene is a hypothetical chemical compound that is a new type of 3D hollow molecule composed of carbon and transition metals. The name is a reference to fullerenes.^[1] The main feature of these substances is that metal atoms are part of the framework and they are not deposited on the surface of the molecule. The incorporation of the metal atoms avoids their clustering and confers to volleyballene sites to attach hydrogen. Volleyballene was predicted in 2016 by Jing Wang et al.^[2] A further study based on Density functional Theory (DFT) carried out by Tlahuice-Flores in the same year supports the predicted structure and gives computed Infrared, Raman and UV spectra for its experimental detection.^[3] The structure is described as one Sc₈ cluster holding 12 scandium atoms linked to six C₁₀ units on each face. The chemical formula C₆₀Sc₂₀ is closely related to C₈₀ fullerene and it has a large predicted HOMO-LUMO gap of 1.47 eV.^[4] Further hydrogenation of volleyballene is predicted to give a 70-H structure^[5] with an adsorption energy of circa −0.11 eV/H2. Moreover, it is expected that the adsorption-desorption reaction can be reached at ambient temperature. Potential use of volleyballenes is hydrogen storage even at ambient conditions.

References[edit]

^ "Volleyballene puts a new spin on buckyballs". New Scientist. 25 February 2015. Retrieved 30 March 2019.
^ Liu, Ying; Ma, Hong-Man; Wang, Jing (June 2, 2016). "Sc20C60: a volleyballene". Nanoscale. 8 (22): 11441–11444. arXiv:1502.03507. Bibcode:2016Nanos...811441W. doi:10.1039/C5NR07784B. PMID 26878201. S2CID 205985813.
^ Tlahuice-Flores, A. (May 4, 2016). "New insight into the structure of the C60Sc20 cluster: bonding, vibrational and optical properties". Physical Chemistry Chemical Physics. 18 (18): 12434–12437. Bibcode:2016PCCP...1812434T. doi:10.1039/C6CP01206J. PMID 27105055.
^ Poly Wilson (18 February 2016). "Volleyballene nets a place in the buckyball family". Chemistry World. Royal Society of Chemistry. Retrieved 30 March 2019.
^ Tlahuice-Flores, Alfredo (July 5, 2018). "Hydrogen Storage on Volleyballene: Prediction of the Sc20C60H70 Cluster". The Journal of Physical Chemistry C. 122 (26): 14971–14978. doi:10.1021/acs.jpcc.8b03067. S2CID 103888863.

[1] "Volleyballene puts a new spin on buckyballs". New Scientist. 25 February 2015. Retrieved 30 March 2019.

[2] Liu, Ying; Ma, Hong-Man; Wang, Jing (June 2, 2016). "Sc20C60: a volleyballene". Nanoscale. 8 (22): 11441–11444. arXiv:1502.03507. Bibcode:2016Nanos...811441W. doi:10.1039/C5NR07784B. PMID 26878201. S2CID 205985813.

[3] Tlahuice-Flores, A. (May 4, 2016). "New insight into the structure of the C60Sc20 cluster: bonding, vibrational and optical properties". Physical Chemistry Chemical Physics. 18 (18): 12434–12437. Bibcode:2016PCCP...1812434T. doi:10.1039/C6CP01206J. PMID 27105055.

[4] Poly Wilson (18 February 2016). "Volleyballene nets a place in the buckyball family". Chemistry World. Royal Society of Chemistry. Retrieved 30 March 2019.

[5] Tlahuice-Flores, Alfredo (July 5, 2018). "Hydrogen Storage on Volleyballene: Prediction of the Sc20C60H70 Cluster". The Journal of Physical Chemistry C. 122 (26): 14971–14978. doi:10.1021/acs.jpcc.8b03067. S2CID 103888863.

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