Understanding the mechanism of enhanced charge separation and visible light photocatalytic activity of modified wurtzite ZnO with nanoclusters of ZnS and graphene oxide: from a hybrid density functional study
Understanding the mechanism of enhanced charge separation and visible light photocatalytic activity of modified wurtzite ZnO with nanoclusters of ZnS and graphene oxide: from a hybrid density functional study
A first principles study of the Titania is done as used in photo-catalysis to generate charge carries. Models of titania, silica, graphene, epoxy graphene monoxide, single wall Carbon nanotubes and their respective layer were studied in order to investigate their morphological, electronic and optical properties as well as electrostatic potentials. The calculations are performed using density functional theory to ascertain the properties of the starting bulk molecules and understand the surface properties, a slab surface of 101, and 111 is cut from the bulk TiO2 and SiO2, respectively. A physisorbed study is carried out on the layers generated in relation to their electronic and optical properties. To understand the electron movement during photocatalysis, a projected density of state study is conducted in order to assess the orbital contribution in the charge transfer.
Reference:
Opoku, F., Govender, K.K., Van Sitter, C.G.C.E. et al. 2017. Understanding the mechanism of enhanced charge separation and visible light photocatalytic activity of modified wurtzite ZnO with nanoclusters of ZnS and graphene oxide: from a hybrid density functional study. New Journal of Chemistry, vol. 16: 8140-8155
Opoku, F., Govender, K., Van Sitter, C., & Govender, P. (2017). Understanding the mechanism of enhanced charge separation and visible light photocatalytic activity of modified wurtzite ZnO with nanoclusters of ZnS and graphene oxide: from a hybrid density functional study. http://hdl.handle.net/10204/9564
Opoku, F, Krishna Govender, CGCE Van Sitter, and PP Govender "Understanding the mechanism of enhanced charge separation and visible light photocatalytic activity of modified wurtzite ZnO with nanoclusters of ZnS and graphene oxide: from a hybrid density functional study." (2017) http://hdl.handle.net/10204/9564
Opoku F, Govender K, Van Sitter C, Govender P. Understanding the mechanism of enhanced charge separation and visible light photocatalytic activity of modified wurtzite ZnO with nanoclusters of ZnS and graphene oxide: from a hybrid density functional study. 2017; http://hdl.handle.net/10204/9564.
Copyright: Royal Society of Chemistry 2017. Due to copyright restrictions, the attached PDF file only contains the abstract of the full text item. For access to the full text item, kindly consult the publisher's website.
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