▎ 摘　　要

Currently, 18-crown-6-like graphene nanopore has emerged and received much theoretical and experimental attention. Inspired by the multilayer oxygen-containing structure of the K+ channel (KcsA), we adopted molecular dynamics to investigate the selectivity of K+/Na+ for a series of multilayer 18-crown-6-like graphene nanopores. The results demonstrated that the nanopores of the multilayer graphene could facilitate the selectivity of K+/Na+ compared to the monolayer graphene. A proper combination of layer number and interlayer spacing could achieve a high selectivity. The spatial distribution of fluid molecules and ionic hydration microstructures indicated that the easier dehydration of K+ could lead to the more uniformity of K+ pathways in the central region of the nanopore and in turn be helpful in increasing the selectivity of K+. Meanwhile, the increased unsuitability for the pore wall oxygen atoms to compensate the partial dehydrated Na+ could enhance the resistance of Na+. These findings provide useful insights to the further design of 18-crown-6-like and other crown-ether-like graphene nanopore-based nanodevices as sensors and ion separators. (C) 2018 Elsevier Ltd. All rights reserved.