Phenol degradation test showed the highest efficiency is observed when the sample calcined at 300 C with 0.8 wt % cobalt content. Phenol removal efficiency is 96% after 3 h irradiation.
苯酚降解的光催化性能测试显示300℃退火0.8wt% Co含量的BiVO4/Co3O4具有最高光催化活性,3 h苯酚去除率达到96%。
参考来源 - 新型光催化剂的制备、表征及其光催化活性的调控机制The results of the following experiments of phenol degradation were identical to the former conclusions.
并在随后进行的部分苯酚降解动力学验证实验中得到了一致的结论。
参考来源 - 交流阻抗法TiO·2,447,543篇论文数据,部分数据来源于NoteExpress
The same method can be used and phenol degradation of HCHO.
用同样方法可以降解hcho和苯酚。
The effects of the ultraviolet and the sun-light on the phenol degradation were compared.
同时考察了与紫外光辐射照度相当的太阳光对苯酚废水的氧化结果。
The reaction kinetic of phenol degradation was according with pseudo-first order reaction kinetic model.
该降解反应符合准一级反应动力学。
应用推荐