请帮忙修改下存在的语法错误(时间有点急,最好是今天回答)
发布网友
共2个回答
热心网友
问题太多了了,你不如把中文写出来我帮你翻译。
翻译如下,请审阅。Since entering the 21 Century, the research of scientific researchers on photocatalytic performance has entering a new era, the emergence of double compounds attracts the attention from more and more researchers. The sulfur/molybdenum disulfide double compound introced in this paper is one of them. It uses Na2MoO4•2H2o and C2H5NS as the raw materials, and applies solvent thermal synthesis method to prepare sulfur/molybdenum disulfide double compound under the condition without adding any surfactant or end capping reagent. The prepared sulfur/molybdenum disulfide double compound is characterized by various methods, such as UV-Vis diffuse reflectance (DRS), transmission electron microscope (TEM), fluorescence spectroscopy (PL), X ray powder diffraction(XRD) , X ray photoelectron spectroscopy (XPS) , etc. Furthermore, the UV and visible light degradation activity of the sulfur/molybdenum disulfide double compound is studied taking methylene blue (MB) as the degradation object. The results show that, compared with the pure sulfur, sulfur/molybdenum disulfide double compound exhibits better UV and visible light MB degradation activity.
热心网友
Since the start of this century, researchers' study on Photocatalytic Performance has entered a new era. The emergence of complex compound has drawn more and more attention from researchers. The sulfur/molybdenum disulfide compounds described in this paper is one of them. Using Na2MoO4•2H2o and C2H5NS as raw materials, by the method of solvent thermal synthesis, we proced sulfur/molybdenum disulfide compounds without any surfactant or capping additive. We achieved characterization of the sulfur/molybdenum disulfide compound through UV-vis/Diffuse reflectance spectroscopy (DRS), transmission electron microscope (TEM), fluorescence spectroscopy (PL), X ray powder diffraction(XRD) , X ray photoelectron spectroscopy (XPS) and other methods. Using Methylene Blue (MB) as the degradation object, we studied the UV and visible light degradation activity of sulfur/molybdenum disulfide complexes. The results show that, copared with the pure sulfur, sulfur/molybdenum complex has better ultraviolet and visible light activity of MB degradation.
