Environmental dielectric screening effect on exciton transition energies in single-walled carbon nanotubes

Details Environmental dielectric screening effect on exciton transition energies in single-walled carbon nanotubes Environmental dielectric screening effect on exciton transition energies in single-walled carbon nanotubes

2007-04-08

arxiv.org/abs/0704.1018v1

Physics

Condensed Matter

Materials Science

Scientific paper

Environmental dielectric screening effects on exciton transition energies in single-walled carbon nanotubes (SWNTs) have been studied quantitatively in the range of dielectric constants from 1.0 to 37 by immersing SWNTs bridged over trenches in various organic solvents by means of photoluminescence and the excitation spectroscopies. With increasing environmental dielectric constant ($\epsilon_{\rm env}$), both $E_{11}$ and $E_{22}$ exhibited a redshift by several tens meV and a tendency to saturate at a $\epsilon_{\rm env} \sim 5$ without an indication of significant ($n$,$m$) dependence. The redshifts can be explained by dielectric screening of the repulsive electron-electron interaction. The $\epsilon_{\rm env}$ dependence of $E_{11}$ and $E_{22}$ can be expressed by a simple empirical equation with a power law in $\epsilon_{\rm env}$, $E_{\rm ii} = E_{\rm ii}^{\infty} + A\epsilon_{\rm env}^{-\alpha}$. We also immersed a sample in sodium-dodecyl-sulfate (SDS) solution to investigate the effects of wrapping SWNTs with surfactant. The resultant $E_{11}$ and $E_{22}$, which agree well with Weisman's data [Nano Lett. {\bf 3}, 1235 (2003)], are close to those of $\epsilon_{\rm env}$ of 2. However, in addition to the shift due to dielectric screening, another shift was observed so that the ($2n+m$)-family patterns spread more widely, similar to that of the uniaxial-stress-induced shift.

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