Solid electrolyte secondary battery

摘要

Provided is a solid electrolyte secondary battery with a greater capacity than previous solid electrolyte secondary batteries. Furthermore, the disclosed solid electrolyte secondary battery can obtain a high power output and improve battery function while ensuring a large capacity. The solid electrolyte secondary battery is provided with a cathode chamber, a cathode active material container that is provided independently and stores some cathode active material, and a channel medium that is provided between the two and through which the active material passes. The cathode active material is transferred by the channel medium and heterogeneity, when the active material is discharged, can be curbed. By providing a transfer medium, which transfers the cathode active material, the cathode active material can be forcibly transferred.

主权项

1. A solid electrolyte secondary battery comprising
a positive electrode chamber where sulfur as a positive electrode active material is housed at least, a negative electrode chamber where sodium as a negative electrode active material is housed at least, a wall, which is located between said positive electrode chamber and said negative electrode chamber, which isolates said sulfur and said sodium, and which is made of a solid electrolyte having conductivity for said sodium, a positive electrode active material storage container which is independent from said positive electrode chamber and housing a part of said sulfur, and a passage which circulates in one direction to move said sulfur from said positive electrode chamber to said positive electrode active material storage container and further circulates from said positive electrode active material storage container to said positive electrode chamber, wherein, when charging, moving of said sulfur from said positive electrode active material storage container to said positive electrode chamber is promoted by decreasing pressure in said positive electrode chamber because said sodium, which is ionized, transmits through said wall and moves to said negative electrode chamber from said positive electrode chamber, and wherein, when discharging, the moving of said sulfur from said positive electrode chamber to said positive electrode active material storage container is promoted by increasing the pressure in said positive electrode chamber because said sodium, which is ionized, transmits through said wall and moves to said positive electrode chamber from said negative electrode chamber.