| Literature DB >> 33900719 |
Viviane V Nascimento1, Wellington Q Neves2,3, Rafael S Alencar4, Guanghui Li5, Chengyin Fu6, Robert C Haddon5, Elena Bekyarova5, Juchen Guo6, Simone S Alexandre1, Ricardo W Nunes1, Antonio G Souza Filho2, Cristiano Fantini1.
Abstract
In this work, we explain the origin and the mechanism responsible for the strong enhancement of the Raman signal of sulfur chains encapsulated by single-wall carbon nanotubes by running resonance Raman measurements in a wide range of excitation energies for two nanotube samples with different diameter distributions. The Raman signal associated with the vibrational modes of the sulfur chain is observed when it is confined by small-diameter metallic nanotubes. Moreover, a strong enhancement of the Raman signal is observed for excitation energies corresponding to the formation of excited nanotube-chain-hybrid electronic states. Our hypothesis was further tested by high pressure Raman measurements and confirmed by density functional theory calculations of the electronic density of states of hybrid systems formed by sulfur chains encapsulated by different types of single-wall carbon nanotubes.Entities:
Keywords: 1D systems; carbon nanotubes; endohedral functionalization; excited hybrid electronic states; resonance Raman scattering; sulfur chains
Year: 2021 PMID: 33900719 DOI: 10.1021/acsnano.1c00390
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881