在 BiWO 层状结构中产生活性氧物种（ROS）的直接证据。

Direct evidence of the photocatalytic generation of reactive oxygen species (ROS) in a BiWO layered-structure.

机构信息

Universidad Autónoma de Nuevo León, Centro de Investigación en Ciencias Físico Matemáticas, Facultad de Ciencias Físico Matemáticas, Av. Universidad S/N, San Nicolás de los Garza, 66455 Nuevo León, Mexico.

CONACYT-Departamento de Física Aplicada, CINVESTAV-IPN, Antigua Carretera a Progreso km 6, Mérida, Yucatán 97310, Mexico.

出版信息

J Colloid Interface Sci. 2017 Nov 15;506:111-119. doi: 10.1016/j.jcis.2017.07.026. Epub 2017 Jul 8.

DOI:10.1016/j.jcis.2017.07.026

PMID:28728028

Abstract

In the present work, the BiWO photocatalyst has been prepared by an easy and prompt co-precipitation route. From the structural characterization, we have stated that the formation of the BiWO is accompanied by a small amount of the BiWO oxide, which gradually decreases by increasing the calcination temperature. The conduction and valence band edges of the BiWO semiconductor were experimentally estimated for the first time using the X-ray photoelectron (XPS) and diffuse reflectance (DRS) spectroscopies. The best photocatalytic performance was attained for the sample calcined at 700°C, which showed the highest production of hydroxyl radicals, superoxide ions as well as the highest photodegradation of the ciprofloxacin drug. In addition, by means of photoluminescence spectroscopy we propose that the effective separation of the photogenerated charge carriers in the sample calcined at 700°C produces a higher production of reactive oxygen species and thus a higher photoactivity under solar-like irradiation conditions.

摘要

在本工作中，通过一种简单快速的共沉淀法制备了 BiWO 光催化剂。通过结构表征，我们发现 BiWO 的形成伴随着少量的 BiWO 氧化物，而随着煅烧温度的升高，这种氧化物的含量逐渐减少。我们首次使用 X 射线光电子能谱（XPS）和漫反射（DRS）光谱实验估算了 BiWO 半导体的导带和价带边缘。煅烧温度为 700°C 的样品表现出最佳的光催化性能，其羟基自由基、超氧离子的生成量最高，环丙沙星药物的光降解率也最高。此外，通过光致发光光谱，我们提出在 700°C 煅烧的样品中，光生载流子的有效分离产生了更高的活性氧物种的生成量，从而在模拟太阳光照射条件下表现出更高的光活性。

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在 BiWO 层状结构中产生活性氧物种（ROS）的直接证据。

Direct evidence of the photocatalytic generation of reactive oxygen species (ROS) in a BiWO layered-structure.

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