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View article: Engineering a Stable Solid–Electrolyte Interphase through a Novel Trifluoromethyl‐Free Lithium Salt for Lithium Metal Polymer Batteries
Engineering a Stable Solid–Electrolyte Interphase through a Novel Trifluoromethyl‐Free Lithium Salt for Lithium Metal Polymer Batteries Open
The deployment of safe and high‐energy density lithium metal polymer batteries (LMPBs) still requires further advances in the quest for new solid polymer electrolytes (SPEs). In this regard, salt anions have a decisive role in the overall …
View article: Asymmetric Benzene Sulfonamide Sodium Salt Enabling Stable Cycling in Solid‐State Sodium Metal Batteries
Asymmetric Benzene Sulfonamide Sodium Salt Enabling Stable Cycling in Solid‐State Sodium Metal Batteries Open
With renewable energy and electric vehicles driving demand, safer and cost‐effective alternatives to lithium‐ion batteries are being sought. This study explores the development of a novel sodium salt, sodium (benzenesulfonyl)(trifluorometh…
View article: Hybrid Ceramic Polymer Electrolytes Enabling Long Cycling in Practical 1 Ah‐Class High‐Voltage Solid‐State Batteries with Li Metal Anode
Hybrid Ceramic Polymer Electrolytes Enabling Long Cycling in Practical 1 Ah‐Class High‐Voltage Solid‐State Batteries with Li Metal Anode Open
Solid polymer electrolytes offer a safer alternative to organic liquid electrolytes in high‐voltage lithium metal batteries, yet challenges remain in achieving adequate cyclability, energy density, scalability, and safety. This study prese…
View article: Opportunity for lithium-ion conducting polymer electrolytes beyond polyethers
Opportunity for lithium-ion conducting polymer electrolytes beyond polyethers Open
Lithium-ion conducting solid polymer electrolytes [SPEs] are of particular interest for battery applications. In addition to their relatively easy scalability to industrial scale, the ductility and processability of SPEs allows intimate co…
View article: Safe, Scalable and Reliable Solution for Solid-State Lithium Metal Polymer Batteries
Safe, Scalable and Reliable Solution for Solid-State Lithium Metal Polymer Batteries Open
View article: Graphene‐Based Sulfur Cathodes and Dual Salt‐Based Sparingly Solvating Electrolytes: A Perfect Marriage for High Performing, Safe, and Long Cycle Life Lithium‐Sulfur Prototype Batteries
Graphene‐Based Sulfur Cathodes and Dual Salt‐Based Sparingly Solvating Electrolytes: A Perfect Marriage for High Performing, Safe, and Long Cycle Life Lithium‐Sulfur Prototype Batteries Open
The growing requirements for electrified applications entail exploring alternative battery systems. Lithium‐sulfur batteries (LSBs) have emerged as a promising, cost‐effective, and sustainable solution; however, their practical commerciali…
View article: Solid-state electrolytes for safe rechargeable lithium metal batteries: a strategic view
Solid-state electrolytes for safe rechargeable lithium metal batteries: a strategic view Open
Despite the efforts devoted to the identification of new electrode materials with higher specific capacities and electrolyte additives to mitigate the well-known limitations of current lithium-ion batteries, this technology is believed to …