Title :
Proton dynamics of the water lattice in nanochannel
Author :
Matsui, H. ; Suzuki, Yuya ; Fukumochi, H. ; Tadokoro, M.
Author_Institution :
Dept. of Phys., Tohoku Univ., Sendai, Japan
Abstract :
By the microwave and infrared measurements, the water nanotube encapsulated in the nanochannel framework of molecular porous crystal exhibits intrinsic proton conduction with high conductivity and activation behavior. Self-dissociation of water molecules generates protons and protonic holes forming an Eigen-type hydrate with local distortions. One-dimensional water chain is constructed in the similar porous crystal with narrower nanochannel size. The microwave response comes from protons and protonic holes respectively combined with mobile D and L configurational defects traveling on the water chain, which is influenced by the anisotropic Coulomb fields due to Co3+ in the framework.
Keywords :
cobalt; infrared detectors; ionic conductivity; microwave measurement; nanotubes; porous materials; water; Co3+; Co3+ ion; H2O; activation behavior; anisotropic Coulomb fields; eigen-type hydrate; infrared measurements; local distortions; microwave measurements; microwave response; molecular porous crystal; nanochannel framework; nanochannel size; proton conduction; proton dynamics; self-dissociation; water lattice; water molecules; water nanotube; Absorption; Conductivity; Crystals; Microwave FET integrated circuits; Microwave theory and techniques; Nanobioscience; Protons;
Conference_Titel :
Infrared, Millimeter, and Terahertz waves (IRMMW-THz), 2014 39th International Conference on
Conference_Location :
Tucson, AZ
DOI :
10.1109/IRMMW-THz.2014.6956341
