Tuning the work function of surface oxidised multi-wall carbon nanotubes via cation exchange

We report a large reduction in the work function of acid oxidised multi-wall carbon nanotubes upon exchange of protons associated with acidic surface groups with the alkali metal cations Li+, Na+ and K+ measured using ultra-violet photoelectron spectroscopy. X-ray photoelectron spectroscopy provides compelling evidence for the preferential uptake of Na+, over Li+ and K+ and yields an estimate of the density of surface bound carboxylic acid moieties onto which functional organic molecules can be chemically attached.

Graphical abstractTreatment of acid oxidised multi-wall carbon nanotubes with the alkali metal hydroxides LiOH, KOH and NaOH is shown to be a facile means of reducing the work function by as much as 0.4 eV via metal cation exchange with protons associated with acidic surface moieties.Download full-size image