MnO2 Nanosheet-Assisted Hydrothermal Synthesis of β-MnO2 Branchy Structures

Branchy structures of β-MnO2 were prepared through a two-step process including MnO2 nanosheet-assisted hydrothermal synthesis of branchy γ-MnOOH precursor and followed by calcination of the obtained precursor. After the calcination, the branchy feature was retained for β-MnO2 with two types of the end structures, i.e., pyramidate ends and opened ends. The assembly and shedding mechanism was proposed to explain the formation of the branchy structure. This nanosheet-assisted hydrothermal method studied here offers a new approach for synthesis of other layered materials. Furthermore, the decolorization experiments of methyl blue (MB) showed that the obtained β-MnO2 exhibited excellent ability to remove the MB dye with the assistance of hydrogen peroxide.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Branchy β-MnO2 was prepared through a MnO2 nanosheet-assisted hydrothermal process. ► Branches have sunk structures, with some pyramidate ends closed and others opened. ► The branchy structure was formed through the assembly and shedding mechanism. ► The branchy β-MnO2 shows excellent ability to remove the organic pollutants.