| 초록 |
In the most of photocatalyst, ultraviolet light is needed to excite carriers because they have large band gap energy. So, there are many efforts for reducing band gap energy corresponded at visible light because the visible light has the energy-rich portion of the solar spectrum. So, cuprous oxide (Cu2O) is a candidate semiconductor but Cu2O has some problems. In aqueous solution, Cu2O is able to convert to cupric oxide (CuO). And under photoirradiation, this corrosion can occur easily. And there are different surface structures on different Cu2O shape. This difference makes different surface energy in aqueous system and it affects surface stability. We synthesized different shaped cuprous oxide particles (cubic, octahedral, rhombic dodecahedral structure). And corrosion of each shaped cuprous oxide examined with and without photoreaction in aqueous solution. Cu2O (100) face structure has lowest stability in aqueous solution. In photo reaction, edges of particle are degraded for all structures. |
