| 초록 |
The earth-abundant metal and its compounds, such as copper and copper-based hybrid nanomaterials, have been widely developed recently, especially in the field of catalysis. The synergistic effects between the components in hybrid nanomaterials result in some outstanding properties compared to the individual counterparts. There are several synthetic strategies for preparing copper-based nanohybrids, including one-pot heating-up, post-synthetic cation exchange, and seeded growth. Herein, we report the controllable synthesis of copper-based hybrid nanomaterials composed of copper (I) sulfide and noble metal through metal exchange method. We suppose that the obtained hybrid nanomaterials can improve catalytic performance for energy-related applications. |
