All solid-state battery (ASSB) technology, defined as having only solid components, will unlock materials chemistry limitations from traditional battery technologies and enable alternative activities and advanced designs. The costs of battery manufacturing are trending down, and energy density is trending up, however, this trend is plateauing. This plateau in energy density and cost efficiency offers a perfect opportunity for new battery innovations and ASSBs stand to be the primary battery system of the future.
In this whitepaper, we will look at the factors that need to be overcome by ASSB developers in order to dominant the battery landscape, as well as the newest ASSBs designs, innovations and analytical equipment considerations to support ASSBs' meteoric breakthrough into the battery landscape.
- Understand the key factors and trends that are influencing the future of the battery industry
- Discover how scientists are unlocking chemistry limitations from traditional battery technologies and enabling solid-state batteries to break through the current energy density plateau
- Learn and overcome battery failure, cell dimensional changes, and cell breathing issues
- Discover the analytical technologies and techniques used to develop revolutionary innovations in electrolyte, anode, and cathode components in solid-state batteries.
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