Na3 V2 (PO4 )3 (NVP) is regarded as a potential cathode material for sodium-ion batteries, whereas, its performance is usually limited by inherent low electronic conductivity and dense bulk structure. Herein, we develop a facile polymer stabilized droplet template strategy to synthesize porous single crystal structured NVP. The pore structures (macrostructures, hierarchically meso/macrostructures, and mesostructures), pore sizes (5-2000 nm), and specific surface areas (26-158 m2 g-1 ) of the samples can be readily controlled by tuning the sizes of droplet templates. The resultant hierarchically meso/macropores NVP demonstrates superior sodium storage performances, because its porous single crystal structure owns solid-liquid Na+ transmission mode, shortens ion diffusion distance and provides large electrode-electrolyte contact area, greatly facilitating fast ionic transport. We believe the presented method will supply a novel avenue to prepare porous single crystal structured materials for anticipative applications.
Keywords: Na3V2(PO4)3; droplet template; porous structure; single crystals; sodium-ion batteries.
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