Add to ORKGThe limiting current density of a conventional polymer electrolyte (PS-PEO/LiTFSI) and a single-ion-conducting polymer electrolyte (PSLiTFSI-PEO) was measured using a new approach based on the fitted slopes of the potential obtained from lithiumpolymer-lithium symmetric cells at a constant current density. The results of this method were consistent with those of an alternative framework for identifying the limiting current density taken from the literature. We found the limiting current density of the conventional electrolyte is inversely proportional to electrolyte thickness as expected from theory. The limiting current density of the single-ion-conducting electrolyte was found to be independent of thickness. There are no theories that add...
A significant limitation of rechargeable lithium-ion batteries arises because most of the ionic curr...
International audienceThe energy conversion and its storage is a tremendous challenge for our societ...
The uncontrollable nonplanar electrodeposition of lithium is a significant barrier to the widespread...
Next-generation electrolytes for lithium batteries must be able to conduct ions at sufficiently high...
The limiting current is an important transport property of an electrolyte as it provides an upper bo...
Hybrid organic-inorganic block copolymer electrolytes are of interest to enable batteries containing...
Lithium-ion batteries are essential for the decarbonization of our power generation systems and elec...
Single-ion conducting polymer electrolytes (SIPE) are particularly promising electrolyte materials i...
International audienceA significant limitation of rechargeable lithium-ion batteries arises because ...
A significant limitation of rechargeable lithium-ion batteries arises because most of the ionic curr...
International audienceA new family of single-ion-conductor block-copolymer electrolytes (BCEs), comp...
We investigate a polyacetal-based electrolyte, poly(1,3,6-Trioxocane) (P(2EO-MO)) mixed with lithium...
We develop a model based on concentrated solution theory for predicting the cycling characteristics ...
A significant limitation of rechargeable lithium-ion batteries arises because most of the ionic curr...
International audienceThe energy conversion and its storage is a tremendous challenge for our societ...
The uncontrollable nonplanar electrodeposition of lithium is a significant barrier to the widespread...
Next-generation electrolytes for lithium batteries must be able to conduct ions at sufficiently high...
The limiting current is an important transport property of an electrolyte as it provides an upper bo...
Hybrid organic-inorganic block copolymer electrolytes are of interest to enable batteries containing...
Lithium-ion batteries are essential for the decarbonization of our power generation systems and elec...
Single-ion conducting polymer electrolytes (SIPE) are particularly promising electrolyte materials i...
International audienceA significant limitation of rechargeable lithium-ion batteries arises because ...
A significant limitation of rechargeable lithium-ion batteries arises because most of the ionic curr...
International audienceA new family of single-ion-conductor block-copolymer electrolytes (BCEs), comp...
We investigate a polyacetal-based electrolyte, poly(1,3,6-Trioxocane) (P(2EO-MO)) mixed with lithium...
We develop a model based on concentrated solution theory for predicting the cycling characteristics ...
A significant limitation of rechargeable lithium-ion batteries arises because most of the ionic curr...
International audienceThe energy conversion and its storage is a tremendous challenge for our societ...
The uncontrollable nonplanar electrodeposition of lithium is a significant barrier to the widespread...