Solution‐Processed Pure Sulfide Cu2(Zn0.6Cd0.4)SnS4 Solar Cells with Efficiency 10.8% Using Ultrathin CuO Intermediate Layer

Herein, it is demonstrated that incorporating ultrathin p‐type cupric oxide (CuO) enhances the performance and stability of solution‐processed Cu2(Zn0.6Cd0.4)SnS4 (CZCTS)/CdS thin film solar cells. In sol–gel CZCTS/CdS thin film solar cells, nanoscale CuO films (4–32 nm) are deposited on top of moly...

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Veröffentlicht in:	Solar RRL 2020-09, Vol.4 (9), p.n/a
Hauptverfasser:	Zhuk, Siarhei, Wong, Terence Kin Shun, Petrović, Miloš, Kymakis, Emmanuel, Hadke, Shreyash Sudhakar, Lie, Stener, Wong, Lydia Helena, Sonar, Prashant, Dey, Avishek, Krishnamurthy, Satheesh, Dalapati, Goutam Kumar
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Sprache:	eng
Schlagworte:	Cu2(Zn0.6Cd0.4)SnS4 CuO intermediate layer interface engineering kesterite solar cells
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creator	Zhuk, Siarhei Wong, Terence Kin Shun Petrović, Miloš Kymakis, Emmanuel Hadke, Shreyash Sudhakar Lie, Stener Wong, Lydia Helena Sonar, Prashant Dey, Avishek Krishnamurthy, Satheesh Dalapati, Goutam Kumar
description	Herein, it is demonstrated that incorporating ultrathin p‐type cupric oxide (CuO) enhances the performance and stability of solution‐processed Cu2(Zn0.6Cd0.4)SnS4 (CZCTS)/CdS thin film solar cells. In sol–gel CZCTS/CdS thin film solar cells, nanoscale CuO films (4–32 nm) are deposited on top of molybdenum (Mo) by magnetron sputtering and this is used as an intermediate layer (IL). The CuO IL thickness has a significant effect on the short‐circuit current density (JSC) in CZCTS/CdS solar cell devices. As a result, a maximum power conversion efficiency (PCE) of 10.77% is measured for the optimized device with 4 nm CuO compared with 10.03% for the reference device without a CuO layer. Furthermore, the stability of the devices is enhanced significantly by incorporating the CuO IL. This work demonstrates that through proper design of the CuO IL thickness, both the back interface quality and optical property of the CZCTS absorber can be tuned to enhance the device performance. Incorporating ultrathin p‐type cupric oxide (CuO) enhances the performance and stability of solution‐processed Cu2(Zn0.6Cd0.4)SnS4 (CZCTS)/CdS thin film solar cells. The CuO intermediate layer (IL) thickness has a significant effect on the short‐circuit current density (JSC). A maximum power conversion efficiency (PCE) of 10.77% is measured for the device with 4 nm CuO compared with 10.03% for the reference device without a CuO layer.
doi_str_mv	10.1002/solr.202000293
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In sol–gel CZCTS/CdS thin film solar cells, nanoscale CuO films (4–32 nm) are deposited on top of molybdenum (Mo) by magnetron sputtering and this is used as an intermediate layer (IL). The CuO IL thickness has a significant effect on the short‐circuit current density (JSC) in CZCTS/CdS solar cell devices. As a result, a maximum power conversion efficiency (PCE) of 10.77% is measured for the optimized device with 4 nm CuO compared with 10.03% for the reference device without a CuO layer. Furthermore, the stability of the devices is enhanced significantly by incorporating the CuO IL. This work demonstrates that through proper design of the CuO IL thickness, both the back interface quality and optical property of the CZCTS absorber can be tuned to enhance the device performance. Incorporating ultrathin p‐type cupric oxide (CuO) enhances the performance and stability of solution‐processed Cu2(Zn0.6Cd0.4)SnS4 (CZCTS)/CdS thin film solar cells. The CuO intermediate layer (IL) thickness has a significant effect on the short‐circuit current density (JSC). 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In sol–gel CZCTS/CdS thin film solar cells, nanoscale CuO films (4–32 nm) are deposited on top of molybdenum (Mo) by magnetron sputtering and this is used as an intermediate layer (IL). The CuO IL thickness has a significant effect on the short‐circuit current density (JSC) in CZCTS/CdS solar cell devices. As a result, a maximum power conversion efficiency (PCE) of 10.77% is measured for the optimized device with 4 nm CuO compared with 10.03% for the reference device without a CuO layer. Furthermore, the stability of the devices is enhanced significantly by incorporating the CuO IL. This work demonstrates that through proper design of the CuO IL thickness, both the back interface quality and optical property of the CZCTS absorber can be tuned to enhance the device performance. Incorporating ultrathin p‐type cupric oxide (CuO) enhances the performance and stability of solution‐processed Cu2(Zn0.6Cd0.4)SnS4 (CZCTS)/CdS thin film solar cells. The CuO intermediate layer (IL) thickness has a significant effect on the short‐circuit current density (JSC). A maximum power conversion efficiency (PCE) of 10.77% is measured for the device with 4 nm CuO compared with 10.03% for the reference device without a CuO layer.</description><subject>Cu2(Zn0.6Cd0.4)SnS4</subject><subject>CuO intermediate layer</subject><subject>interface engineering</subject><subject>kesterite solar cells</subject><issn>2367-198X</issn><issn>2367-198X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><sourceid/><recordid>eNpNkMtKw0AUhgdRsNRuXc9G0EXiXHJdSqhaCLSYFsRNmMzFjkwnMpNQshEfwWf0SUxRiqtzPvjPz-ED4BKjECNEbn1rXEgQQSPk9ARMCE3SAOfZ8-m__RzMvH87ZKIozRI8AR9Va_pOt_b782vlWi69lwKueidh1RulhYRFT65fLAqTQqAwuqlsFcHxijlYSGM83OtuC-dKaa6l5QMcX8qu4MZr-wo3pnOs22o7tizhwnbS7aTQrJOwZIN0F-BMMePl7G9Owfp-vi4eg3L5sCjuysATFNMgzppGMZ5KxQWlcR6JmHPKkpTJTDAxUpTgpsGcEBTFFHOaYMUVziVCKY_pFOS_tXtt5FC_O71jbqgxqg_y6oO8-iivrpbl05HoD3sAZsU</recordid><startdate>202009</startdate><enddate>202009</enddate><creator>Zhuk, Siarhei</creator><creator>Wong, Terence Kin Shun</creator><creator>Petrović, Miloš</creator><creator>Kymakis, Emmanuel</creator><creator>Hadke, Shreyash Sudhakar</creator><creator>Lie, Stener</creator><creator>Wong, Lydia Helena</creator><creator>Sonar, Prashant</creator><creator>Dey, Avishek</creator><creator>Krishnamurthy, Satheesh</creator><creator>Dalapati, Goutam Kumar</creator><scope/><orcidid>https://orcid.org/0000-0002-9169-046X</orcidid></search><sort><creationdate>202009</creationdate><title>Solution‐Processed Pure Sulfide Cu2(Zn0.6Cd0.4)SnS4 Solar Cells with Efficiency 10.8% Using Ultrathin CuO Intermediate Layer</title><author>Zhuk, Siarhei ; Wong, Terence Kin Shun ; Petrović, Miloš ; Kymakis, Emmanuel ; Hadke, Shreyash Sudhakar ; Lie, Stener ; Wong, Lydia Helena ; Sonar, Prashant ; Dey, Avishek ; Krishnamurthy, Satheesh ; Dalapati, Goutam Kumar</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-s2053-58bbfac7efcd33594d5cc3a67ae8dadd5c461bb1c2204531c361fcf19e007c53</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>Cu2(Zn0.6Cd0.4)SnS4</topic><topic>CuO intermediate layer</topic><topic>interface engineering</topic><topic>kesterite solar cells</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Zhuk, Siarhei</creatorcontrib><creatorcontrib>Wong, Terence Kin Shun</creatorcontrib><creatorcontrib>Petrović, Miloš</creatorcontrib><creatorcontrib>Kymakis, Emmanuel</creatorcontrib><creatorcontrib>Hadke, Shreyash Sudhakar</creatorcontrib><creatorcontrib>Lie, Stener</creatorcontrib><creatorcontrib>Wong, Lydia Helena</creatorcontrib><creatorcontrib>Sonar, Prashant</creatorcontrib><creatorcontrib>Dey, Avishek</creatorcontrib><creatorcontrib>Krishnamurthy, Satheesh</creatorcontrib><creatorcontrib>Dalapati, Goutam Kumar</creatorcontrib><jtitle>Solar RRL</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Zhuk, Siarhei</au><au>Wong, Terence Kin Shun</au><au>Petrović, Miloš</au><au>Kymakis, Emmanuel</au><au>Hadke, Shreyash Sudhakar</au><au>Lie, Stener</au><au>Wong, Lydia Helena</au><au>Sonar, Prashant</au><au>Dey, Avishek</au><au>Krishnamurthy, Satheesh</au><au>Dalapati, Goutam Kumar</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Solution‐Processed Pure Sulfide Cu2(Zn0.6Cd0.4)SnS4 Solar Cells with Efficiency 10.8% Using Ultrathin CuO Intermediate Layer</atitle><jtitle>Solar RRL</jtitle><date>2020-09</date><risdate>2020</risdate><volume>4</volume><issue>9</issue><epage>n/a</epage><issn>2367-198X</issn><eissn>2367-198X</eissn><abstract>Herein, it is demonstrated that incorporating ultrathin p‐type cupric oxide (CuO) enhances the performance and stability of solution‐processed Cu2(Zn0.6Cd0.4)SnS4 (CZCTS)/CdS thin film solar cells. In sol–gel CZCTS/CdS thin film solar cells, nanoscale CuO films (4–32 nm) are deposited on top of molybdenum (Mo) by magnetron sputtering and this is used as an intermediate layer (IL). The CuO IL thickness has a significant effect on the short‐circuit current density (JSC) in CZCTS/CdS solar cell devices. As a result, a maximum power conversion efficiency (PCE) of 10.77% is measured for the optimized device with 4 nm CuO compared with 10.03% for the reference device without a CuO layer. Furthermore, the stability of the devices is enhanced significantly by incorporating the CuO IL. This work demonstrates that through proper design of the CuO IL thickness, both the back interface quality and optical property of the CZCTS absorber can be tuned to enhance the device performance. Incorporating ultrathin p‐type cupric oxide (CuO) enhances the performance and stability of solution‐processed Cu2(Zn0.6Cd0.4)SnS4 (CZCTS)/CdS thin film solar cells. The CuO intermediate layer (IL) thickness has a significant effect on the short‐circuit current density (JSC). A maximum power conversion efficiency (PCE) of 10.77% is measured for the device with 4 nm CuO compared with 10.03% for the reference device without a CuO layer.</abstract><doi>10.1002/solr.202000293</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-9169-046X</orcidid></addata></record>
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title	Solution‐Processed Pure Sulfide Cu2(Zn0.6Cd0.4)SnS4 Solar Cells with Efficiency 10.8% Using Ultrathin CuO Intermediate Layer
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