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Anomalously enhanced ion transport and uptake in functionalized angstrom-scale two-dimensional channels.

Mingzhan WangTumpa SadhukhanNicholas H C LewisMaoyu WangXiang HeGangbin YanDongchen YingEli HoenigYu HanGuiming PengOne-Sun LeeFengyuan ShiDavid M TiedeHua ZhouAndrei TokmakoffGeorge C SchatzChong Liu
Published in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Emulating angstrom-scale dynamics of the highly selective biological ion channels is a challenging task. Recent work on angstrom-scale artificial channels has expanded our understanding of ion transport and uptake mechanisms under confinement. However, the role of chemical environment in such channels is still not well understood. Here, we report the anomalously enhanced transport and uptake of ions under confined MoS 2 -based channels that are ~five angstroms in size. The ion uptake preference in the MoS 2 -based channels can be changed by the selection of surface functional groups and ion uptake sequence due to the interplay between kinetic and thermodynamic factors that depend on whether the ions are mixed or not prior to uptake. Our work offers a holistic picture of ion transport in 2D confinement and highlights ion interplay in this regime.
Keyphrases
  • quantum dots
  • mass spectrometry
  • highly efficient
  • aqueous solution
  • reduced graphene oxide