TY - GEN
T1 - Solid electrolytes for high energy density batteries
AU - Dudney, Nancy
AU - Kalnaus, Sergiy
AU - Sakamoto, Jeff
N1 - Publisher Copyright:
© (2015) by Cambridge EnerTech.
PY - 2015
Y1 - 2015
N2 - Optimistic that a solid electrolyte will make Li anodes both practical and safe for advanced batteries, including Li-S and Li- O2, with packaged energy density approaching half theoretical. Expect that composites will provide thin and tough electrolyte. Many fundamentals and material properties are unknown - Stress on electrolyte from cycling of lithium - Importance of current homogeneity, grain boundaries - Design rules for interfaces With many promising solid electrolytes to choose from, our challenge is in controlling the interfaces, providing electrochemical stability, and practical processing.
AB - Optimistic that a solid electrolyte will make Li anodes both practical and safe for advanced batteries, including Li-S and Li- O2, with packaged energy density approaching half theoretical. Expect that composites will provide thin and tough electrolyte. Many fundamentals and material properties are unknown - Stress on electrolyte from cycling of lithium - Importance of current homogeneity, grain boundaries - Design rules for interfaces With many promising solid electrolytes to choose from, our challenge is in controlling the interfaces, providing electrochemical stability, and practical processing.
UR - https://www.scopus.com/pages/publications/84960969861
M3 - Conference contribution
AN - SCOPUS:84960969861
T3 - Large Lithium Ion Battery Technology and Application Symposium, LLIBTA 2015 - Held at AABC 2015
SP - 185
EP - 198
BT - Large Lithium Ion Battery Technology and Application Symposium, LLIBTA 2015 - Held at AABC 2015
PB - Cambridge EnerTech, Cambridge Innovation Institute
T2 - Large Lithium Ion Battery Technology and Application Symposium, LLIBTA 2015
Y2 - 15 June 2015 through 17 June 2015
ER -