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Quantum-mechanical calculations on molecular substructures involved in nanosystems

Molecules (2014) 19(10) 15468-15506
DOI: 10.3390/molecules191015468
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Abstract

In this review article, four ideas are discussed: (a) aromaticity of fullerenes patched with flowers of 6-and 8-membered rings, optimized at the HF and DFT levels of theory, in terms of HOMA and NICS criteria; (b) polybenzene networks, from construction to energetic and vibrational spectra computations; (c) quantum-mechanical calculations on the repeat units of various P-type crystal networks and (d) construction and stability evaluation, at DFTB level of theory, of some exotic allotropes of diamond D5, involved in hyper-graphenes. The overall conclusion was that several of the yet hypothetical molecular nanostructures herein described are serious candidates to the status of real molecules.

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APA

Szefler, B., & Diudea, M. V. (2014). Quantum-mechanical calculations on molecular substructures involved in nanosystems. Molecules, 19(10), 15468–15506. https://doi.org/10.3390/molecules191015468

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