Beyond PEO—Alternative host materials for Li + -conducting solid polymer electrolytes

  title={Beyond PEO—Alternative host materials for Li + -conducting solid polymer electrolytes},
  author={Jonas Mindemark and Matthew J. Lacey and Tim Melander Bowden and Daniel Brandell},
  journal={Progress in Polymer Science},

Metal–organic frameworks and zeolite materials as active fillers for lithium-ion battery solid polymer electrolytes

The efforts to decarbonize the economies, with particular focus on renewable energies, must be accompanied by the development of more efficient and environmentally friendlier energy storage systems.

Block copolymers as (single-ion conducting) lithium battery electrolytes

The impact of adding a lithium salt in comparison to single-ion conducting BCP electrolytes along with the encouraging features of these materials and the remaining challenges that are yet to be solved are discussed.

Enhancing Li-ion conduction and mechanical properties via addition of fluorine-containing metal—organic frameworks in all-solid-state cross-linked hyperbranched polymer electrolytes

Poly(ethylene oxide) (PEO)-based solid polymer electrolytes (SPEs) are commonly used in lithium metal batteries (LMBs) for their good Li-salt solvating ability and easy processability. However, the

Novel sulfur-doped single-ion conducting multi-block copolymer electrolyte

Solid-state lithium batteries are considered one of the most promising candidates for future electrochemical energy storage. However, both inorganic solid electrolytes (such as oxide-based or



Polymer electrolytes for lithium-ion batteries.

  • W. Meyer
  • Materials Science
    Advanced materials
  • 1998
The motivation for lithium battery development and a discussion of ion conducting polymers as separators begin this review, which includes a short history of polymer electrolyte research, a summary

Ion transport in polycarbonate based solid polymer electrolytes: experimental and computational investigations.

Investigation of the ionic transport behavior in SPEs based on poly(trimethylene carbonate) (PTMC) and its co-polymer with ε-caprolactone (CL) via both experimental and computational approaches results in confirmation of a preferential Li(+)-carbonyl oxygen atom coordination, with a preference in coordination to the ester based monomers.

Nanocomposite polymer electrolytes for lithium batteries

Ionically conducting polymer membranes (polymer electrolytes) might enhance lithium-battery technology by replacing the liquid electrolyte currently in use and thereby enabling the fabrication of

Highly concentrated polycarbonate-based solid polymer electrolytes having extraordinary electrochemical stability

Solid polymer electrolytes (SPEs) are compounds of great interest as safe and flexible alternative ionics materials, particularly suitable for energy storage devices. We study an unusual dependence

TOPICAL REVIEW: Solid polymer electrolytes: materials designing and all-solid-state battery applications: an overview

Polymer electrolytes are promising materials for electrochemical device applications, namely, high energy density rechargeable batteries, fuel cells, supercapacitors, electrochromic displays, etc.

Poly(ethylene oxide)-based electrolytes for lithium-ion batteries

Poly(ethylene oxide) (PEO) based materials are widely considered as promising candidates of polymer hosts in solid-state electrolytes for high energy density secondary lithium batteries. They have

Structure of the polymer electrolyte poly(ethylene oxide)6:LiAsF6

Polymer electrolytes—salts (such as LiCF3SO3) dissolved in solid, high-molar-mass polymers (for example, poly(ethylene oxide), PEO),,—hold the key to the development of all-solid-state rechargeable

Interface layer formation in solid polymer electrolyte lithium batteries: an XPS study

The first characterization studies of the interface layer formed between a Li-ion battery electrode and a solid polymer electrolyte (SPE) are presented here. SPEs are well known for their