Nasirian Mohsen, Mehrvar Mehrab
Graduate Programs in Environmental Applied Science and Management, Ryerson University, Toronto, ON M5B 2K3, Canada.
Department of Chemical Engineering, Ryerson University, Toronto, ON M5B 2K3, Canada.
J Environ Sci (China). 2018 Apr;66:81-93. doi: 10.1016/j.jes.2017.05.032. Epub 2017 May 27.
A nitrogen-doped titanium dioxide composite photocatalyst (N-TiO) with heterojunction structures is synthesized by three different approaches: a novel UV-assisted thermal synthesis, annealing, and microwave technique. Photocatalytic activities of synthesized photocatalysts are evaluated by the degradation of Methyl Orange under ultraviolet light types A (UV-A), B (UV-B), and C (UV-C), visible light, and direct sunlight irradiation. Results show that by using N-TiO photocatalyst prepared by the UV-assisted thermal synthesis and annealing, the degradation increases by 16.5% and 20.4%, respectively, compared to that by bare TiO. The best results are obtained at a nitrogen to TiO mass ratio of 0.15 (N:TiO). The enhancement of the photocatalytic activity observed in the visible range is mainly attributed to the increasing separation rate of photogenerated charge carriers. The novel UV-assisted thermal synthesis has produced encouraging results as a preparation method for the nitrogen-doped TiO photocatalyst; thus, further studies are recommended for process optimization, immobilization, and scale-up to evaluate its applicability in wastewater treatment.
通过三种不同方法合成了具有异质结结构的氮掺杂二氧化钛复合光催化剂(N-TiO):一种新型的紫外光辅助热合成法、退火法和微波法。通过在A(UV-A)、B(UV-B)和C(UV-C)型紫外光、可见光和阳光直射下甲基橙的降解来评估合成光催化剂的光催化活性。结果表明,与纯TiO相比,使用通过紫外光辅助热合成法和退火法制备的N-TiO光催化剂时,降解率分别提高了16.5%和20.4%。在氮与TiO的质量比为0.15(N:TiO)时获得了最佳结果。在可见光范围内观察到的光催化活性增强主要归因于光生电荷载流子分离速率的提高。作为氮掺杂TiO光催化剂的一种制备方法,新型紫外光辅助热合成法已取得了令人鼓舞的结果;因此,建议进一步研究以优化工艺、进行固定化和扩大规模,以评估其在废水处理中的适用性。
