Abstract

The electron storage and discharge properties of single wall carbon nanotubes (SWCNTs) are probed by their interaction with radiolytically and photolytically produced methyl viologen (MV+•) radicals. Quantitative estimation of stored electrons amounts to one electron per ∼100 carbon atoms of SWCNT. These stored electrons are readily discharged on demand by introducing an electron acceptor such as thionine (E0TH/TH2− = 0.064 V vs NHE). On the basis of the charge equilibration experiments, we estimate the apparent Fermi level of SWCNT as 0.039 V versus NHE.

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