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Confined water-mediated high proton conduction in hydrophobic channel of a synthetic nanotube

Ken‐ichi Otake, Kazuya Otsubo, Tokutaro Komatsu, Shun Dekura, Jared M. Taylor, Ryuichi Ikeda, Kunihisa Sugimoto, Akihiko Fujiwara, Chien‐Pin Chou, Aditya Wibawa Sakti, Yoshifumi Nishimura, Hiromi Nakai, Hiroshi Kitagawa

2020Nature Communications183 citationsDOIOpen Access PDF

Abstract

Abstract Water confined within one-dimensional (1D) hydrophobic nanochannels has attracted significant interest due to its unusual structure and dynamic properties. As a representative system, water-filled carbon nanotubes (CNTs) are generally studied, but direct observation of the crystal structure and proton transport is difficult for CNTs due to their poor crystallinity and high electron conduction. Here, we report the direct observation of a unique water-cluster structure and high proton conduction realized in a metal-organic nanotube, [Pt(dach)(bpy)Br] 4 (SO 4 ) 4 ·32H 2 O (dach: (1R, 2R)-(–)-1,2-diaminocyclohexane; bpy: 4,4’-bipyridine). In the crystalline state, a hydrogen-bonded ice nanotube composed of water tetramers and octamers is found within the hydrophobic nanochannel. Single-crystal impedance measurements along the channel direction reveal a high proton conduction of 10 −2 Scm −1 . Moreover, fast proton diffusion and continuous liquid-to-solid transition are confirmed using solid-state 1 H-NMR measurements. Our study provides valuable insight into the structural and dynamical properties of confined water within 1D hydrophobic nanochannels.

Topics & Concepts

NanotubeCarbon nanotubeProtonChemical physicsThermal conductionMaterials scienceCrystallinityCrystal structureWater clusterNanotechnologyHydrogen bondCrystallographyChemistryMoleculeOrganic chemistryQuantum mechanicsPhysicsComposite materialNanopore and Nanochannel Transport StudiesAdvanced NMR Techniques and ApplicationsNMR spectroscopy and applications
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