Add to ORKGThe objective of this work was to identify, synthesize and incorporate into a working prototype, next-generation solid polymer electrolytes, that allow our pre-existing solid-state lithium battery to function better under extreme conditions. We have synthesized polymer electrolytes in which emphasis was placed on the temperature-dependent performance of these candidate electrolytes. This project was designed to produce and integrate novel polymer electrolytes into a lightweight thin-film battery that could easily be scaled up for mass production and adapted to different applications
The focus of much of this work is the rechargeable lithium battery, because of its high energy densi...
To fulfill our needs, we all desire a long-lasting, non-explosive and small lithium-ion battery (LIB...
A wide interest is mounting in the field of polymer electrolytes, due to their application in energy...
We all desire a long-lasting, non-explosive, flexible and small lithium-ion battery (LIB) for our po...
Solid-state electrolytes are a promising family of materials for the next generation of high-energy ...
We all desire a long-lasting, non-explosive, flexible and small lithium-ion battery (LIB) for our po...
To fulfill our needs, we all desire a long-lasting, non-explosive and small lithium-ion battery (LIB...
Future NASA and Air Force missions require reliable and safe sources of energy with high specific en...
Polymer electrolytes exhibit unique advantages such as mechanical integrity, intimate electrode/elec...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
The focus of much of this work is the rechargeable lithium battery, because of its high energy densi...
To fulfill our needs, we all desire a long-lasting, non-explosive and small lithium-ion battery (LIB...
A wide interest is mounting in the field of polymer electrolytes, due to their application in energy...
We all desire a long-lasting, non-explosive, flexible and small lithium-ion battery (LIB) for our po...
Solid-state electrolytes are a promising family of materials for the next generation of high-energy ...
We all desire a long-lasting, non-explosive, flexible and small lithium-ion battery (LIB) for our po...
To fulfill our needs, we all desire a long-lasting, non-explosive and small lithium-ion battery (LIB...
Future NASA and Air Force missions require reliable and safe sources of energy with high specific en...
Polymer electrolytes exhibit unique advantages such as mechanical integrity, intimate electrode/elec...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
Expectations on solid-state lithium batteries are at their highest as they are seen as a “next-gener...
The focus of much of this work is the rechargeable lithium battery, because of its high energy densi...
To fulfill our needs, we all desire a long-lasting, non-explosive and small lithium-ion battery (LIB...
A wide interest is mounting in the field of polymer electrolytes, due to their application in energy...