It is reported excitingly in a previous letter (Nano Lett.2011, 11, 3123) that a small piece of graphene sheet about 30 × 16 μm 2 immersed in flowing water with 0.6 M hydrochloric acid can produce voltage ∼20 mV. Here we find that no measurable voltage can be induced by the flow over mono-, bi- and trilayered graphene samples of ∼1 × 1.5 cm 2 in size in the same solution once the electrodes on graphene are isolated from interacting with the solution, mainly because the H 3O + cations in the water adsorb onto graphene by strong covalent bonds as revealed by our first-principles calculations. When both the graphene and its metal electrodes are exposed to the solution as in the previous work, water flow over the graphene-electrode system can induce voltages from a few to over a hundred millivolts. In this situation, the graphene mainly behaves as a load connecting between the electrodes. Therefore, the harvested energy is not from the immersed carbon nanomaterials themselves in ionic water flow but dominated by the exposed electrodes. © 2012 American Chemical Society.
CITATION STYLE
Yin, J., Zhang, Z., Li, X., Zhou, J., & Guo, W. (2012). Harvesting energy from water flow over graphene? Nano Letters, 12(3), 1736–1741. https://doi.org/10.1021/nl300636g
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