In situ generation of (sub) nanometer pores in MoS2 membranes for ion-selective transport

Eli Hoenig, Yu Han, Kangli Xu, Jingyi Li, Mingzhan Wang and Chong Liu ()
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Eli Hoenig: University of Chicago
Yu Han: University of Chicago
Kangli Xu: University of Chicago
Jingyi Li: University of Chicago
Mingzhan Wang: University of Chicago
Chong Liu: University of Chicago

Nature Communications, 2024, vol. 15, issue 1, 1-10

Abstract: Abstract Ion selective membranes are fundamental components of biological, energy, and computing systems. The fabrication of solid-state ultrathin membranes that can separate ions of similar size and the same charge with both high selectivity and permeance remains a challenge, however. Here, we present a method, utilizing the application of a remote electric field, to fabricate a high-density of (sub)nm pores in situ. This method takes advantage of the grain boundaries in few-layer polycrystalline MoS2 to enable the synthesis of nanoporous membranes with average pore size tunable from

Date: 2024
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DOI: 10.1038/s41467-024-52109-8

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