Ion-Specific Nanoconfinement Effect in Multilayered Graphene Membranes: A Combined Nuclear Magnetic Resonance and Computational Study

D Liu; Z Xiong; P Wang; Q Liang; H Zhu; JZ Liu; M Forsyth; D Li

Journal article

Ion-Specific Nanoconfinement Effect in Multilayered Graphene Membranes: A Combined Nuclear Magnetic Resonance and Computational Study

D Liu, Z Xiong, P Wang, Q Liang, H Zhu, JZ Liu, M Forsyth, D Li

Nano Letters | Published : 2023

DOI: 10.1021/acs.nanolett.3c00877

Abstract

Ion adsorption within nanopores is involved in numerous applications. However, a comprehensive understanding of the fundamental relationship between in-pore ion concentration and pore size, particularly in the sub-2 nm range, is scarce. This study investigates the ion-species-dependent concentration in multilayered graphene membranes (MGMs) with tunable nanoslit sizes (0.5-1.6 nm) using nuclear magnetic resonance and computational simulations. For Na+-based electrolytes in MGMs, the concentration of anions in graphene nanoslits increases in correlation with their chaotropic properties. As the nanoslit size decreases, the concentration of chaotropic ion (BF4-) increases, whereas the concentra..

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University of Melbourne Researchers

Zhe Liu Author

Dan Li Author

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Grants

Awarded by Australian Research Council

Funding Acknowledgements

The authors acknowledge the financial support from the Australian Research Council (FL180100029, DP220103498, DE190100445) and the use of facilities in the Materials Characterization and Fabrication Platform at the University of Melbourne. The authors thank Yang Cao and Xiaoyang Du for their help in SEM, EDX, and Raman characterizations.