Abstract
The single-step reaction of benzene and boron tribromide in a closed reactor at elevated temperature (800 °C) results in the synthesis of bulk boron-doped graphitic carbon. Materials of continuously tunable composition BCx′ are accessible (x ≥ 3), exhibiting the structure of a solid-solution of boron within turbostratic graphite (G′). Upon extended heat treatment or at higher temperatures, graphitic BCx′ is leached of boron and undergoes a phase separation into boron carbide and graphite. Higher boron content is correlated with an increased maximum capacity for alkali metal ions, making graphitic BCx′ a promising candidate anode material for emerging sodium-ion batteries.
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