Min Wang scite author profile

Na 3 V 2 (PO 4 ) 3 (denoted as NVP) has been considered as a promising cathode material for room temperature sodium ion batteries. Nevertheless, NVP suffers from poor rate capability resulting from the low electronic conductivity. Here, the feasibility to approach high rate capability by designing carbon-coated NVP nanoparticles confi ned into highly ordered mesoporous carbon CMK-3 matrix (NVP@C@CMK-3) is reported. The NVP@C@CMK-3 is prepared by a simple nanocasting technique. The electrode exhibits superior rate capability and ultralong cyclability (78 mA h g −1 at 5 C after 2000 cycles) compared to carbon-coated NVP and pure NVP cathode. The improved electrochemical performance is attributed to double carbon coating design that combines a variety of advantages: very short diffusion length of Na + /e − in NVP, easy access of electrolyte, and short transport path of Na + through carbon toward the NVP nanoparticle, high conductivity transport of electrons through the 3D interconnected channels of carbon host. The optimum design of the core-shell nanostructures with double carbon coating permits fast kinetics for both transported Na + ions and electrons, enabling high-power performance.

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Three-dimensional nanocomposite scaffolds fabricated via selective laser sintering for bone tissue engineering

Duan

et al. 2010

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Chemically coupled hydroxyapatite–polyethylene composites: structure and properties

Wang

2001

216

142

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Min Wang

Developing bioactive composite materials for tissue replacement

Nanoconfined Carbon‐Coated Na₃V₂(PO₄)₃ Particles in Mesoporous Carbon Enabling Ultralong Cycle Life for Sodium‐Ion Batteries

Three-dimensional nanocomposite scaffolds fabricated via selective laser sintering for bone tissue engineering

Chemically coupled hydroxyapatite–polyethylene composites: structure and properties

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About

Min Wang

Developing bioactive composite materials for tissue replacement

Nanoconfined Carbon‐Coated Na3V2(PO4)3 Particles in Mesoporous Carbon Enabling Ultralong Cycle Life for Sodium‐Ion Batteries

Three-dimensional nanocomposite scaffolds fabricated via selective laser sintering for bone tissue engineering

Chemically coupled hydroxyapatite–polyethylene composites: structure and properties

Contact Info

Product

Resources

About

Nanoconfined Carbon‐Coated Na₃V₂(PO₄)₃ Particles in Mesoporous Carbon Enabling Ultralong Cycle Life for Sodium‐Ion Batteries