First-principles calculations of the structural, electronic, vibrational and magnetic properties of C60 and C48N12: a comparative study
Abstract
In this work, we perform first-principles calculations of the structural, electronic, vibrational and magnetic properties of a novel C48 N12 azafullerene. Full geometrical optimization shows that C48 N12 is characterized by several distinguishing features: only one nitrogen atom per pentagon, two nitrogen atoms preferentially sitting in one hexagon, S6 symmetry, 6 unique nitrogen-carbon and 9 unique carbon-carbon bond lengths. The highest occupied molecular orbital of C48 N12 is a doubly degenerate level of ag symmetry and its lowest unoccupied molecular orbital is a nondegenerate level of au symmetry. Vibrational frequency analysis predicts that C48 N12 has in total 116 vibrational modes: 58 infrared-active and 58 Raman-active modes. C48 N12 is also characterized by 8 13 C and 2 15 N NMR spectral signals. Compared to C60, C48 N12 shows an enhanced third-order optical nonlinearities which implies potential applications in optical limiting and photonics.
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