摘要
半导体光催化技术是解决环境污染问题的有效策略。TiO_(2)是目前应用最广泛的半导体之一。然而,较宽的带隙和载流子的快速复合制约了它的实际应用价值,通过构建异质结可以有效解决上述问题。通过酞菁钴(CoPc)原位复合得到了S型的TiO_(2)/CoPc异质结,二者匹配的能带结构使光生载流子得到有效分离。同时,金属Co离子中心可以活化过一硫酸盐(PMS)。光催化实验结果表明,TiO_(2)/CoPc异质结+PMS在可见光下照射60 min可实现72%的盐酸四环素(TC)降解。与TiO_(2)+PMS相比,反应速率提升了11倍,这是因为光生电子改善了Co^(2+)/Co^(3+)的循环,异质结中载流子的高效分离和Co^(2+)/Co^(3+)循环起协同效应,实现了对TC的高效降解。
Semiconductor photocatalysis is an effective strategy for solving environmental pollution problems.TiO_(2) is one of the most widely used semiconductors.However,the wider bandgap and the fast complexation of carriers constrain its practical application.The above problems can be solved effectively by constructing heterojunctions.Herein,S-type TiO_(2)/CoPc heterojunction was obtained by in situ complexation with cobalt phthalocyanine(CoPc),and the matched energy band structure of the two enabled the effective separation of photogenerated carriers.Meanwhile,the metal Co ion centre could activate peroxymonosulfate(PMS).The results of photocatalytic experiments showed that the TiO_(2)/CoPc heterojunction+PMS could achieve 72% degradation of tetracycline hydrochloride(TC)by irradiating under visible light for 60 min.Compared with TiO_(2)+PMS,the reaction rate was increased by 11 times.The excellent photocatalytic performance may be attributed to the improved Co^(2+)/Co^(3+)cycling by photogenerated electrons,and the synergistic effect of efficient carrier separation and Co^(2+)/Co^(3+)cycling in the heterojunction achieved the efficient degradation of TC.
作者
王钧
付双
侯鹏
刘军
孙春雪
张洪光
WANG Jun;FU Shuang;HOU Peng;LIU Jun;SUN Chunxue;ZHANG Hongguang(Academic Affairs Office,Qiqihar Medical University,Qiqihar 161006,China;College of Pharmacy,Qiqihar Medical University,Qiqihar 161006,China)
出处
《工业水处理》
CAS
CSCD
北大核心
2024年第12期118-122,共5页
Industrial Water Treatment
基金
齐齐哈尔市科技计划联合引导项目(LSFGG-2022034)。