Several technologies appear to offer promise including solid state batteries that replace the chemical slurry in lithium ion batteries with a ceramic material.
Ceramic battery tech.
Lonnie johnson a former nasa scientist and jbt s ceo.
A soft approach to dendrite suppression key to the design of these new soft solid electrolytes was the use of soft polymers of intrinsic microporosity or pims whose pores were filled with nanosized ceramic particles.
The membrane conducts ions electrically charged.
Jbt s ceramic battery technology targets enhanced safety energy density and robustness through the development of new materials and low cost processing technology.
This ceramic is unique owing to its stability against lithium metal and high conductivity at room temperature.
Materials proposed for use as solid electrolytes in solid state batteries include ceramics e g.
These two attributes enable the use of metallic lithium anodes which could double.
Inside ceramatec s wonder battery is a chunk of solid sodium metal mated to a sulphur compound by an extraordinary paper thin ceramic membrane.
The focus was on their new ceramic separator and the chemistry eliminates the anode manufacturing and the cathode is the same process as conventional batteries.
Ceramic fuel cells are highly efficient devices that convert chemical energy into electrical energy and produce very low emissions if powered by hydrogen providing a clean alternative to fossil fuels.
Our team has spent countless hours in the lab perfecting a battery technology that will truly change the game for safe energy storage across a variety of applications states dr.
The technology developed by johnson battery technologies jbt atlanta ga employs ceramic electrolytes instead of volatile liquid or gel electrolytes.
But now the utility is working on the latest generation of goodenough s new battery technology that could be just as transformative.
A ceramic oxide electrolyte.
The electrolyte is the medium.