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Se‐Induced Fibrous Nano Red P with Superior Conductivity for Sodium Batteries

Linqin Zhu, Kangli Xu, Yanyan Fang, Xiaojun Wu, Li Song, Yongchun Zhu, Yitai Qian

2023Advanced Functional Materials33 citationsDOI

Abstract

Abstract Red phosphorus shows great promise as a high‐capacity anode material for Na batteries. Such electrodes that suffered from the fracturing impact of volume change during cycling can be effectively improved by 1D nanomaterials. However, the synthesis of 1D red phosphorus has rarely been studied and employed in sodium batteries. Here, a simple selenium‐induced method to generate fibrous nano red phosphorus is presented. It turns out that a small amount of selenium can not only induce high‐quality fibrous nano red phosphorus from commercial red phosphorus, but also benefit qualitatively to the sodium ionic conductivity. Interestingly, the selenium dopant can also manipulate the chemical state of phosphorus leading to valence tunability which is able to tolerate structural stability under the Na‐rich or Na‐poor condition. As a result, the optimal fibrous nano red phosphorus used as anode outperforms over the traditional red phosphorus ≈6 and ≈10 times in terms of rate performance and cycle stability, respectively. Furthermore, as employed for sodium metal anode protection, the symmetrical cell cycling maintains long stable at a low polarization voltage for over 1000 h. The full cell performs excellent cycling stability of 1500 cycles at 3 C and high‐rate performance up to 30 C.

Topics & Concepts

AnodeMaterials scienceNanomaterialsPhosphorusSodiumConductivityBlack phosphorusSeleniumIonic conductivitySodium-ion batteryChemical engineeringCyclingElectrodeInorganic chemistryNanotechnologyMetallurgyOptoelectronicsChemistryPhysical chemistryEngineeringElectrolyteArchaeologyFaraday efficiencyHistoryAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesInorganic Chemistry and Materials