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Giant photoeffect in proton transport through graphene membranes

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Graphene has recently been shown to be permeable to thermal protons1, the nuclei of hydrogen atoms, which sparked interest in its use as a proton-conducting membrane in relevant technologies1–4. However,… Click to show full abstract

Graphene has recently been shown to be permeable to thermal protons1, the nuclei of hydrogen atoms, which sparked interest in its use as a proton-conducting membrane in relevant technologies1–4. However, the influence of light on proton permeation remains unknown. Here we report that proton transport through Pt-nanoparticle-decorated graphene can be enhanced strongly by illuminating it with visible light. Using electrical measurements and mass spectrometry, we find a photoresponsivity of ∼104 A W−1, which translates into a gain of ∼104 protons per photon with response times in the microsecond range. These characteristics are competitive with those of state-of-the-art photodetectors that are based on electron transport using silicon and novel two-dimensional materials5–7. The photo–proton effect could be important for graphene’s envisaged use in fuel cells and hydrogen isotope separation. Our observations may also be of interest for other applications such as light-induced water splitting, photocatalysis and novel photodetectors.Proton transport through catalytically activated graphene membranes can be strongly enhanced by visible light.

Keywords: giant photoeffect; transport; proton; proton transport; graphene membranes

Journal Title: Nature Nanotechnology
Year Published: 2018

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