DFT plus U studies of Cu doping and p-type compensation in crystalline and amorphous ZnS
Files
Publication date
2015
Editors
Advisors
Supervisors
Document Type
Article
Metadata
Show full item recordCollections
License
taverne
Abstract
Zinc sulfide is an excellent candidate for the development of a p-type transparent conducting material that has great demands in solar energy and optoelectronic applications. Doping with Cu is one potential way to make ZnS p-type while preserving its optical transparency for the solar spectrum; however, this is limited by the extremely low solubility of Cu in ZnS and charge compensation mechanisms that eliminate the p-type characteristics. These mechanisms are different in crystalline (c-ZnS) and amorphous structures (a-ZnS), leading to different tendencies of doping Cu in these two ZnS phases, as well as the feasibility to form the p-type material. In this work, we have carried out fundamental studies of Cu doping in both c-ZnS and a-ZnS, using the continuous random network model and density functional theory with Hubbard's energy correction (DFT+U). The formation of a complex that contains two Cu-zn and one S vacancy is highly favorable in both phases. The local environment of this charge-compensated Cu complex obtained by DFT calculations agrees well with the previous EXAFS measurements. The incorporation of Cu into a-ZnS, on the one hand, is more tolerable compared to its crystal counterparts (zincblende), indicating possible higher Cu concentration. On the other hand, there is aka another intrinsic mechanism to compensate the p-type characteristics in a-ZnS: the formation of the covalent S-S "dumbbell" units. This reconstruction of the local structure to form a S S bond could occur spontaneously, thus making the p-type doping for ZnS challenging even in the amorphous phase.
Keywords
CHEMICAL BATH DEPOSITION, THIN-FILMS, QUANTUM DOTS, ROOM-TEMPERATURE, OXIDE SEMICONDUCTORS, MAGNETIC-PROPERTIES, OPTICAL-PROPERTIES, LOCAL-STRUCTURE, NANOCRYSTALS, PRINCIPLES, Taverne
Citation
Pham, H H, Barkema, G T & Wang, L-W 2015, 'DFT plus U studies of Cu doping and p-type compensation in crystalline and amorphous ZnS', Physical Chemistry Chemical Physics, vol. 17, no. 39, pp. 26270-26276. https://doi.org/10.1039/c5cp04623h