Enhanced Na-Ion Storage of the NASICON Cathode through Synergistic Bulk Lattice Modulation and Porous Architecture

Abstract: A NASICON-type Na3V2(PO4)3 cathode, known for its stable three-dimensional Na+ diffusion channels, has been recognized as a prevailing candidate for sodium-ion batteries. However, the practical implementation of this cathode has been hindered by severe capacity degradation and inferior rate capability, resulting from its intrinsic poor electronic conductivity. Here, this work reports Ni2+ doping Na3V2(PO4)3 materials accompanied by hierarchical porous morphology to strengthen ion migration and improve electron… Show more

“…A micron-sized NVP cathode was synthesized via a solution method. 37 The crystal structure of the synthesized micron-sized NVP is shown in Fig. S14,† which exhibits high crystallinity that can be ascribed to the typical NASICON structure (JCPDS card no.…”

Constructing sodiophilic interconnected ion-transport channels towards a stable Na-metal anode

“…A micron-sized NVP cathode was synthesized via a solution method. 37 The crystal structure of the synthesized micron-sized NVP is shown in Fig. S14,† which exhibits high crystallinity that can be ascribed to the typical NASICON structure (JCPDS card no.…”

Constructing sodiophilic interconnected ion-transport channels towards a stable Na-metal anode

Na3V2(PO4)3 derived cathode materials for sodium-ion batteries (SIBs): A review

Insights into solid solution-assisted polyanion cathodes: Present status, environmental focus and advancement in phosphate and borate chemistry for Li- and Na-ion battery technologies