Thermodynamic stability and structural parameters of carbon nanoclusters

Abstract: Thermodynamic stability of neutral carbon nanoclusters of C m, up to the size of C 50 have been investigated using density functional theory. Four different symmetry point groups, C (m/2)h, acetylenic D (m/2)h, cumulenic D (m/2)h and D mh, have been considered for the clusters and the C (m/2)h has been found to be the most stable isomer for the studied clusters. Peierls transition is also studied for acetylenic D (m/2)h and cumulenic D (m/2)h point groups. It has been revealed that the relative stability of cl… Show more

“…and for monocyclic C 10 , α c = 108.65 a.u. 47 ). ρ and ρ − are the densities of the vibrational states of C 10 and , respectively, in their electronic ground states calculated using the harmonic oscillator approach and the Beyer–Swinehart method 48 .…”

Ultraslow isomerization in photoexcited gas-phase carbon cluster $${{\rm C}}_{10}^ -$$

“…and for monocyclic C 10 , α c = 108.65 a.u. 47 ). ρ and ρ − are the densities of the vibrational states of C 10 and , respectively, in their electronic ground states calculated using the harmonic oscillator approach and the Beyer–Swinehart method 48 .…”

Ultraslow isomerization in photoexcited gas-phase carbon cluster $${{\rm C}}_{10}^ -$$

Structural exploration and properties of (BN)6 cluster via ab initio in combination with particle swarm optimization method

Ab initio investigation of structure, spectrum, aromaticity and electronic properties of C 10 carbon cluster