Ion Hopping: Design Principles for Strategies to Improve Ionic Conductivity for Inorganic Solid Electrolytes

Abstract: Solid electrolytes are considered as an ideal substitution of liquid electrolytes, avoiding the potential hazards of volatilization, flammability, and explosion for liquid electrolyte–based rechargeable batteries. However, there are significant performance gaps to be bridged between solid electrolytes and liquid electrolytes; one with a particular importance is the ionic conductivity which is highly dependent on the material types and structures. In this review, the general physical image of ion hopping in the… Show more

“…Therefore, Na + conduction within ISEs is a complex function of different mechanisms and influencing factors at multiple scales, e.g., atomic interactions, lattice defects, disorder, crystal structure, lattice dynamics, etc. 209,210,[244][245][246][247] Overall, the ionic conductivity of ISEs (s) in the simplest form is subject to two factors, namely the concentration of charge carriers (n) and the mobility of charge carriers (m), as described by eqn (1):…”

Recent progress and strategic perspectives of inorganic solid electrolytes: fundamentals, modifications, and applications in sodium metal batteries

“…Therefore, Na + conduction within ISEs is a complex function of different mechanisms and influencing factors at multiple scales, e.g., atomic interactions, lattice defects, disorder, crystal structure, lattice dynamics, etc. 209,210,[244][245][246][247] Overall, the ionic conductivity of ISEs (s) in the simplest form is subject to two factors, namely the concentration of charge carriers (n) and the mobility of charge carriers (m), as described by eqn (1):…”

Recent progress and strategic perspectives of inorganic solid electrolytes: fundamentals, modifications, and applications in sodium metal batteries

“…They are expected to improve battery safety, inhibit Li dendrite growth, and decrease fabrication and operation costs. 225,226 However, solid electrolytes have low ionic conductivity, and solid electrolyte-electrode interfaces are unstable. These shortcomings can lead to poor battery performance; the performance of some batteries featuring solid electrolytes is poorer than that of their counterparts featuring conventional liquid electrolytes.…”

Fundamentals of Li/CF_xbattery design and application

“…It is commonly recognized that ionic transference in a liquid is more mobile owing to the fluid matrix. Unlike the liquid electrolyte ion‐conduction mechanism, lithium (Li) ions move by hopping across interstitial sites in a solid ion conductor 13,14 . As a result, ion conduction is usually sluggish in SEs compared to that in liquid electrolytes.…”

Advances of sulfide‐type solid‐state batteries with negative electrodes: Progress and perspectives