An Overview of Mixed Polyanionic Cathode Materials for Sodium‐Ion Batteries

Abstract: to battery driven (electric) mobility. While a multibillion-dollar industry has come up catering various needs, the manifold consumption of Li-based resources has led to steep price rise and concerns over future geo-political tension due to its nonuniform geographic distribution. To combat this imminent issue, various alternative battery chemistries (termed as "Beyond Li-ion batteries") are widely pursued, particularly to replace Li-ion batteries in applications unrestricted by gravimetric and/or volumetric en… Show more

“…87,[275][276][277] Polyanionic compounds usually exhibit high thermal stabilities (owing to the strong X-O covalent bonds) and strong resistance to natural oxidation but low electronic conductivities. 271,[278][279][280] However, poor electronic conductivity results in poor electrochemical performance, but it can be overcome by surface modifications, carbon coating, and elevation of operating temperature using IL electrolytes, as reported in recent studies.…”

Advances in sodium secondary batteries utilizing ionic liquid electrolytes

“…87,[275][276][277] Polyanionic compounds usually exhibit high thermal stabilities (owing to the strong X-O covalent bonds) and strong resistance to natural oxidation but low electronic conductivities. 271,[278][279][280] However, poor electronic conductivity results in poor electrochemical performance, but it can be overcome by surface modifications, carbon coating, and elevation of operating temperature using IL electrolytes, as reported in recent studies.…”

Advances in sodium secondary batteries utilizing ionic liquid electrolytes

“…Using this strategy, various electroactive compounds have been synthesized using a variety of polyanions, 11 such as, phosphates, [11][12][13][14] pyrophosphates, 15,16 sulfates, 17 borates, 18 silicates, 19,20 as well as a range of mixed polyanions such as carbono-phosphates, 21,22 phosphate-pyrophosphates, 23,24 phosphatonitrate, 25 boro-phosphates 26 and so on. 27 Polyanions in combination with another electronegative element such as fluoride have been successfully used to further boost the insertion voltage through an inductive effect. 28,29 Polyanion-based electrodes are also an excellent host for Na-ion batteries because of the availability of appropriate channel dimension/volume for the size of the Na-ion.…”

A square channel vanadium phosphite framework as a high voltage cathode for Li- and Na-ion batteries

“…However, a number of sodium intercalation electrodes is much less due to a higher ionic radius of the Na + ions. Special attention is paid to the polyanionic-type cathode materials because of good thermal stability due to strong covalent bonds in polyanions, which imply improved safety characteristics of the batteries [2]. Despite a larger ionic radius of the Na + ions (1.02 Å) compared to the Li + ions (0.76 Å), fast kinetics with Na + as a charge carrier could nevertheless be expected, since (i) sodium forms longer Na-O bonds, providing more open framework structure; (ii) it is characterized by less polarizing ability than lithium; (iii) weaker Lewis acidity of the Na + cations reduces solvation energy, hence facilitating their transfer through the electrode/electrolyte interface [3].…”

Effect of Mixed Li+/Na+-ion Electrolyte on Electrochemical Performance of Na4Fe3(PO4)2P2O7 in Hybrid Batteries