Based on the review of academic literature, the ion transportation mechanism, composition design, electrical properties, stability, doping, and application of these solid electrolytes are discussed, which would be helpful for the further development of all-solid-state lithium batteries....
The performance of aqueous electrolytes in energy storage is superior to the solid or semi-solid/gel electrolytes since they are liquid-based electrolytes with low viscosity and quick ionic conduction. Aqueous electrolytes are classified into three subcategories: (i) Acidic electrolytes, (ii) Alkaline ...
ammability of the liquid electrolytes. Therefore, many researches have been focused on the development of ?re-retardant (FR) additive to lower the ?ammability of the liquid electrolytes. The concept of the FR additives has been long known and studied for the protection of the solid polymers ...
This paper reviews recent progress in the research and development of ES electrolytes. The electrolytes are classified into several categories, including: aqueous, organic, ionic liquids, solid-state or quasi-solid-state, as well as redox-active electrolytes. Effects of electrolyte properties on ES ...
The modification of the surface chemistry is, therefore, a promising strategy for improving the electrochemical performance of anode-less batteries, which has received widespread attention and is also included in this review. Compared to liquid electrolytes, all-solid-state batteries without anodes are ...
Modeling, preparation, and elemental doping of Li7La3Zr2O12 garnet-type solid electrolytes: a review. J. Korean Ceram. Soc. 56, 111–129 (2019). Article CAS Google Scholar Hao, F. et al. High-energy all-solid-state organic–lithium batteries based on ceramic electrolytes. ACS Energy ...
A Comparative Review of Electrolytes for Organic‐Material‐Based Energy‐Storage Devices Employing Solid Electrodes and Redox Fluidselectrochemistryenergy storageionic liquidspolymersredox chemistryElectrolyte chemistry is critical for any energy‐storage device. Low‐cost and sustainable rechargeable batteries ...
BaCeO3-based electrolytes are susceptible to degradation due to the formation of H2S, CO2 and H2O. A natural layer of CeO2 was formed on the electrolyte surface due to the reaction between BaCeO3 and CO2, which reduced the poisoning of electrodes, and it did not alter the electrolyte condu...
However, the poor electrode compatibility of solid electrolytes can lead to the degradation of electrolyte/electrode interfaces, which is the major cause for failure in all-solid-state lithium batteries. To address this, this review will summarize the in-depth understanding of physical and chemical ...
A Review on Engineering Design for Enhancing Interfacial Contact in Solid-State Lithium–Sulfur Batteries Highlights The engineering design principles for enhancing interfacial contact between the electrodes (Li anodes and S cathode) and solid-state electrolytes in solid-state Li–S batteries are ...