Noriaki Kamaya scite author profile

Batteries are a key technology in modern society. They are used to power electric and hybrid electric vehicles and to store wind and solar energy in smart grids. Electrochemical devices with high energy and power densities can currently be powered only by batteries with organic liquid electrolytes. However, such batteries require relatively stringent safety precautions, making large-scale systems very complicated and expensive. The application of solid electrolytes is currently limited because they attain practically useful conductivities (10(-2) S cm(-1)) only at 50-80 °C, which is one order of magnitude lower than those of organic liquid electrolytes. Here, we report a lithium superionic conductor, Li(10)GeP(2)S(12) that has a new three-dimensional framework structure. It exhibits an extremely high lithium ionic conductivity of 12 mS cm(-1) at room temperature. This represents the highest conductivity achieved in a solid electrolyte, exceeding even those of liquid organic electrolytes. This new solid-state battery electrolyte has many advantages in terms of device fabrication (facile shaping, patterning and integration), stability (non-volatile), safety (non-explosive) and excellent electrochemical properties (high conductivity and wide potential window).

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Calcium Phosphate Mineralization Induced by Synthetic Peptides Having Different Distributions in Simulated Body Fluids

Hashizume

Kamaya

Uchida

et al. 2012

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Synthetic peptides having hydroxyapatite binding ability can induce calcium phosphate (CaP) mineralization in simulated body fluids. The peptides freely dispersed in the solution induce formation of peptide–CaP hybrids having sheet-like morphologies, whereas immobilized on solid substrates they induce hydroxyapatite deposition on the substrate surfaces. The results clearly show that distribution of the peptides affects their mineralization properties.

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Noriaki Kamaya

A lithium superionic conductor

Calcium Phosphate Mineralization Induced by Synthetic Peptides Having Different Distributions in Simulated Body Fluids

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