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Nanoconfinement Synthesis of Ultrasmall Bismuth Oxyhalide Nanocrystals with Size‐Induced Fully Reversible Potassium‐Ion Storage and Ultrahigh Volumetric Capacity

Guolin Hao, Chan Zhang, Zhonghui Chen, Yuxi Xu

2022Advanced Functional Materials47 citationsDOI

Abstract

Abstract Bismuth oxyhalide (BiOX, X = Cl, Br, I) nanomaterials have attracted enormous attention because their unique layered structure and nano‐size effect endows them with fascinating physicochemical properties and wide application potential. However, synthesis of ultrasmall BiOX nanocrystals with sizes down to sub‐10 nm remains a considerable challenge and the investigation of such ultrasmall BiOX nanocrystals in alkali‐metal ion batteries have not yet been explored so far. The fabrication of ultrasmall BiOX nanocrystals with an average size of 6 nm on reduced graphene oxide by a versatile nanoconfinement strategy is reported here. The obtained ultrasmall BiOCl nanocrystals‐based monolithic composites are evaluated as free‐standing anodes for potassium‐ion batteries (PIBs) and exhibit the highest reversible capacity of 521 mAh g −1 at 0.05 A g −1 among all reported Bi‐based PIB anodes and ultrahigh volumetric capacity of 1148 mAh cm ‐3 , along with excellent rate capability (205 mAh g −1 at 5 A g −1 ) and extraordinary cycling stability with 94.7% capacity retention after 3000 cycles. More importantly, a fully reversible potassium storage mechanism of BiOCl (BiOCl ↔ Bi ↔ K 3 Bi) induced by the ultrasmall nano‐size effect is revealed for the first time by detailed characterizations, providing new fundamental insights for boosting the electrochemical performance of nanostructured materials.

Topics & Concepts

Materials scienceNanocrystalBismuthAnodeNanomaterialsNanotechnologyOxideElectrochemistryGrapheneChemical engineeringFabricationElectrodeMetallurgyMedicineAlternative medicineChemistryEngineeringPathologyPhysical chemistryAdvancements in Battery MaterialsMXene and MAX Phase MaterialsAdvanced Battery Materials and Technologies