Wet‐Chemical Synthesis of Elemental 2D Materials

This review presents an extensive overview of wet-chemical synthesis techniques for elemental 2D materials (Xenes), underscoring their intrinsic properties, notable applications. It explores the cost-efficiency, high-yield benefits of wet-chemical methods, elaborating on the synthetic processes for specific Xenes, including tellurene, bismuthene, antimonene, phosphorene,, arsenene. Finally, it addresses recent major challenges, prospects of this emerging field.

Abstract

Wet-chemical synthesis refers to the bottom-up chemical synthesis in solution, which is among the most popular synthetic approaches towards functional two-dimensional (2D) materials. It offers several advantages, including cost-effectiveness, high yields,, precious control over the production process. As an emerging family of 2D materials, elemental 2D materials (Xenes) have shown great potential in various applications such as electronics, catalysts, biochemistry,, sensing technologies due to their exceptional/exotic properties such as large surface area, tunable band gap,, high carrier mobility. In this review, we provide a comprehensive overview of the current state-of-the-art in wet-chemical synthesis of Xenes including tellurene, bismuthene, antimonene, phosphorene,, arsenene. The current solvent compositions, process parameters utilized in wet-chemical synthesis, their effects on the thickness, stability of the resulting Xenes are also presented. Key factors considered involves ligands, precursors, surfactants, reaction time, temperature. Finally, we highlight recent advances, existing challenges in the current application of wet-chemical synthesis for Xenes production, provide perspectives on future improvement.

Zum Volltext