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Dynamic Optical Visualization of Proton Transport Pathways at Water-Solid Interfaces.

Jinmei YangYuxian LuLei JinChunxiao ZhaoYuang ChenYang XuFanfan ChenJiandong Feng
Published in: Angewandte Chemie (International ed. in English) (2021)
Probing proton transport is of vital importance for understanding cellular transport, surface catalysis and fuel cells. Conventional proton transport measurements rely on the use of electrochemical conductivity and do not allow for the direct visualization of proton transport pathways. The development of novel experimental techniques to spatiotemporally resolve proton transport is in high demand. Here, building upon the general conversion of aqueous proton flux into spatially resolved fluorescence signals, we optically visualize proton transport through nanopores and along hydrophilic interfaces. We observed that the fluorescence intensity increased at negative voltage due to lateral transport. Thanks to the temporal resolution of optical imaging, our technique further empowers the analysis of proton transport dynamics.
Keyphrases
  • high resolution
  • single molecule
  • electron transfer
  • cell proliferation
  • ionic liquid
  • high intensity
  • high speed
  • photodynamic therapy
  • fluorescence imaging