Improvement of Transparent Conducting Nanotube Films by Addition of Small Quantities of Graphene

We demonstrate a water-based method to prepare transparent, conducting graphene/single-walled nanotube hybrid films. While the transmittance decreases slightly with increasing graphene content, the DC conductivity, am, and sheet resistance scale non-monotonically with film composition. We observe an optimum composition of similar to 3 wt % graphene, which results in a peak in the DC conductivity. We have calculated the figure of merit, the DC to optical conductivity ratio, sigma(DC)/sigma(Op), which also shows a peak at this composition. We find that this effect is only present for small graphene flakes. In addition, acid treatment increases both the sigma(DC) and sigma(DC)/sigma(Op) by x 2.5. Interestingly, acid treatment is more effective for films close to the optimum composition. This has the effect of sharpening the peaks in both sigma(DC) and sigma(DC)/sigma(Op). For acid-treated films, addition of 3 wt % graphene results in a 40% increase in sigma(DC)/sigma(Op), compared to the nanotube-only film, from 12.5 to 18. Optimized, acid-treated films display transmittance of 80% coupled with a sheet resistance of 100 Omega/square.