Effects of metal ion concentration on electrodeposited CuZnSn film and its application in kesterite Cu sub(2)ZnSnS sub(4) solar cells
In this study, effects of concentrations of Cu(ii), Zn(ii) and Sn(ii) ions in the electrolytic bath solution on the properties of electrochemically deposited CuZnSn (CZT) films were investigated. Study of the composition of a CZT film has shown that the metallic content (relative atomic ratio) in th...
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| Veröffentlicht in: | RSC advances 2015-07, Vol.5 (80), p.65114-65122 |
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| creator | Hreid, Tubshin Li, Jianjun Zhang, Yi Spratt, Henry J Wang, Hongxia Will, Geoffrey |
| description | In this study, effects of concentrations of Cu(ii), Zn(ii) and Sn(ii) ions in the electrolytic bath solution on the properties of electrochemically deposited CuZnSn (CZT) films were investigated. Study of the composition of a CZT film has shown that the metallic content (relative atomic ratio) in the film increased linearly with increase in the metal ion concentration. It is the first time that the relationship of the compositions of the alloy phases in the co-electrodeposited CZT film with the concentration of metal ions has been revealed. The results have confirmed that the formation and content of Cu sub(6)Sn sub(5) and Cu sub(5)Zn sub(8) alloy phases in the film were directly controlled by the concentration of Cu(ii). SEM measurements have shown that Sn(ii) has significant impact on film morphology, which became more porous as a result of the larger nucleation size of tin. The changes in the surface properties of the films was also confirmed by chronoamperometry characteristic (i-t) deposition curves. By optimization of metal ion concentrations in the electrolyte solution, a copper-poor and zinc-rich kesterite Cu sub(2)ZnSnS sub(4) (CZTS) film was synthesized by the sulfurization of the deposited CZT film. The solar cell with the CZTS film showed an energy conversion efficiency of 2.15% under the illumination intensity of 100 mW cm super(-2). |
| doi_str_mv | 10.1039/c5ra09966h |
| format | Article |
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Study of the composition of a CZT film has shown that the metallic content (relative atomic ratio) in the film increased linearly with increase in the metal ion concentration. It is the first time that the relationship of the compositions of the alloy phases in the co-electrodeposited CZT film with the concentration of metal ions has been revealed. The results have confirmed that the formation and content of Cu sub(6)Sn sub(5) and Cu sub(5)Zn sub(8) alloy phases in the film were directly controlled by the concentration of Cu(ii). SEM measurements have shown that Sn(ii) has significant impact on film morphology, which became more porous as a result of the larger nucleation size of tin. The changes in the surface properties of the films was also confirmed by chronoamperometry characteristic (i-t) deposition curves. By optimization of metal ion concentrations in the electrolyte solution, a copper-poor and zinc-rich kesterite Cu sub(2)ZnSnS sub(4) (CZTS) film was synthesized by the sulfurization of the deposited CZT film. 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By optimization of metal ion concentrations in the electrolyte solution, a copper-poor and zinc-rich kesterite Cu sub(2)ZnSnS sub(4) (CZTS) film was synthesized by the sulfurization of the deposited CZT film. 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Study of the composition of a CZT film has shown that the metallic content (relative atomic ratio) in the film increased linearly with increase in the metal ion concentration. It is the first time that the relationship of the compositions of the alloy phases in the co-electrodeposited CZT film with the concentration of metal ions has been revealed. The results have confirmed that the formation and content of Cu sub(6)Sn sub(5) and Cu sub(5)Zn sub(8) alloy phases in the film were directly controlled by the concentration of Cu(ii). SEM measurements have shown that Sn(ii) has significant impact on film morphology, which became more porous as a result of the larger nucleation size of tin. The changes in the surface properties of the films was also confirmed by chronoamperometry characteristic (i-t) deposition curves. By optimization of metal ion concentrations in the electrolyte solution, a copper-poor and zinc-rich kesterite Cu sub(2)ZnSnS sub(4) (CZTS) film was synthesized by the sulfurization of the deposited CZT film. The solar cell with the CZTS film showed an energy conversion efficiency of 2.15% under the illumination intensity of 100 mW cm super(-2).</abstract><doi>10.1039/c5ra09966h</doi></addata></record> |
| fulltext | fulltext |
| identifier | EISSN: 2046-2069 |
| ispartof | RSC advances, 2015-07, Vol.5 (80), p.65114-65122 |
| issn | 2046-2069 |
| language | eng |
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| source | Royal Society Of Chemistry Journals |
| subjects | Concentration (composition) CZT Illumination Intermetallic compounds Ion concentration Phases Photovoltaic cells Solar cells Synthesis (chemistry) |
| title | Effects of metal ion concentration on electrodeposited CuZnSn film and its application in kesterite Cu sub(2)ZnSnS sub(4) solar cells |
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