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Regulate Phosphorus Configuration in High P-Doped Hard Carbon as a Superanode for Sodium Storage

Xiaoyan Wang, Mingxing Hou, Zhenglu Shi, Xiang Liu, Isao Mizota, Hongtao Lou, Bin Wang, Xianhua Hou

2021ACS Applied Materials & Interfaces96 citationsDOI

Abstract

Heteroatom-doped hard carbon is a popular method to optimize the electrochemical performance of anode electrodes for sodium-ion batteries. Herein, phosphorus-doped hollow carbon nanorods (P-HCNs) are obtained by a one-step synthesis with a high phosphorus content of 7.5 atom %. By controlling the P configuration, the P-HCNs03 exhibits reversible capacity as high as 260 mA h g–1 at the current density of 1.0 A g–1 after 500 cycles with an initial Coulombic efficiency (ICE) of 73%. When the amount of phosphorus in the as-prepared materials is changed, the different structures of the P-doped carbon lattices are analyzed by X-ray diffraction, Raman spectroscopy, and X-ray photoelectron spectroscopy. Based on the first-principles calculation, although the P–O bond has the most configurations, the excellent reversible capacity of the electrode is attributed to the strong Na-absorption ability of P═O and P–C bonds. The sodium-based dual-ion batteries (NDIBs) assembled with P-HCNs03 as an anode and expanded graphite as a cathode (P-HCNs03//EG) exhibited a high energy density of 138 W h kg–1 at a power density of 159 W kg–1. The results provide an important angle to optimize the performance of hard carbons with other functionalized heteroatoms.

Topics & Concepts

HeteroatomMaterials scienceFaraday efficiencyAnodeRaman spectroscopyCarbon fibersX-ray photoelectron spectroscopyElectrochemistryCathodeDopingChemical engineeringSodium-ion batteryGraphiteElectrodeOrganic chemistryPhysical chemistryOptoelectronicsChemistryAlkylComposite materialEngineeringOpticsPhysicsComposite numberAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesChemical Synthesis and Characterization
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