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Literature DB >> 17429953

Comparison of geometric, electronic, and vibrational properties for isomers of small fullerenes C20-C36.

Edyta Małolepsza¹, Henryk A Witek, Stephan Irle.

Abstract

We employ the self-consistent-charge density-functional tight-binding (SCC-DFTB) method for computing geometric, electronic, and vibrational properties for various topological isomers of small fullerenes. We consider all 35 five- and six-member rings containing isomers of small fullerenes, C20, C24, C26, C28, C30, C32, C34, and C36, as first part of a larger effort to catalog CC distance distributions, valence CCC angle distributions, electronic densities of states (DOSs), vibrational densities of states (VDOSs), and infrared (IR) and Raman spectra for fullerenes C20-C180. Common features among the fullerenes are identified and properties characteristic for each specific fullerene isomer are discussed.

Entities: Chemical Gene

Year: 2007 PMID： 17429953 DOI： 10.1021/jp068529r

Source DB: PubMed Journal: J Phys Chem A ISSN： 1089-5639 Impact factor: 2.781

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Cited

4 in total

4. DFT calculations towards the geometry optimization, electronic structure, infrared spectroscopy and UV-vis analyses of Favipiravir adsorption on the first-row transition metals doped fullerenes; a new strategy for COVID-19 therapy.

Authors: Ali Shokuhi Rad; Mehdi Ardjmand; Milad Rabbani Esfahani; Bahareh Khodashenas
Journal: Spectrochim Acta A Mol Biomol Spectrosc Date: 2020-10-17 Impact factor: 4.098

4 in total

Comparison of geometric, electronic, and vibrational properties for isomers of small fullerenes C20-C36.

1. When finite becomes infinite: convergence properties of vibrational spectra of oligomer chains.

2. Comparative study on the spectral properties of boron clusters Bn(0/-1)(n = 38-40).

3. Density-functional tight-binding: basic concepts and applications to molecules and clusters.

4. DFT calculations towards the geometry optimization, electronic structure, infrared spectroscopy and UV-vis analyses of Favipiravir adsorption on the first-row transition metals doped fullerenes; a new strategy for COVID-19 therapy.