纳米孔
材料科学
橙色(颜色)
光降解
甲基橙
化学工程
光催化
乙醇
纳米技术
核化学
制作
催化作用
有机化学
化学
食品科学
病理
替代医学
工程类
医学
作者
Zhenhua Dan,Yulin Yang,Fengxiang Qin,Hao Wang,Hui Chang
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2018-03-19
卷期号:11 (3): 446-446
被引量:96
摘要
Thin cupric oxide (Cu2O) nanobelts with width of few tens of nanometers to few hundreds of nanometers were fabricated in anhydrous ethanol on nanoporous copper templates that was prepared via dealloying amorphous Ti40Cu60 ribbons in hydrofluoric acid solutions at 348 K. The Cu2O octahedral particles preferentially form in the water, and nanobelts readily undergo the growth along the lengthwise and widthwise in the anhydrous ethanol. The ethanol molecules serve as stabilizing or capping reagents, and play a key role of the formation of two-dimensional Cu2O nanobelts. Cu atoms at weak sites (i.e., twin boundary) on the nanoporous Cu ligaments are ionized to form Cu2+ cations, and then react with OH− to form Cu2O and H2O. The two-dimensional growth of Cu2O nanostructure is preferred in anhydrous ethanol due to the suppression of random growth of Cu2O nanoarchitectures by ethanol. Cu2O nanobelts have superior photodegradation performance of methyl orange, three times higher than nanoporous Cu.
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