Controlled isotope arrangement in 13C enriched carbon nanotubes

Abstract

We report the synthesis of a novel isotope engineered 13 C--12 C heteronuclear nanostructure: single-wall carbon nanotubes made of 13 C enriched clusters which are embedded in natural carbon regions. The material is synthesized with a high temperature annealing from 13 C enriched benzene and natural C60, which are co-encapsulated inside host SWCNTs in an alternating fashion. The Raman 2D line indicates that the 13 C isotopes are not distributed uniformly in the inner tubes. A semi-empirical method based modeling of the Raman modes under 13 C isotope enrichment shows that experimental data is compatible with the presence of 13 C rich clusters which are embedded in a natural carbon containing matrix. This material may find applications in quantum information processing and storage using nuclear spins as qubits.