Oxygen doping-induced photogeneration loss in P3HT:PCBM solar cells

This work investigates the loss in performance induced by molecular oxygen in bulk heterojunction solar cells. We observe that upon exposure to molecular oxygen both formation of P3HT+:O2− complex and metal oxidation at the interface between the active layer and metallic contact occur. These two dif...

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Veröffentlicht in:	Solar energy materials and solar cells 2012-05, Vol.100, p.185-191
Hauptverfasser:	Guerrero, Antonio, Boix, Pablo P., Marchesi, Luís F., Ripolles-Sanchis, Teresa, Pereira, Ernesto C., Garcia-Belmonte, Germà
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Sprache:	eng
Schlagworte:	Applied sciences Capacitance Degradation Direct energy conversion and energy accumulation Disturbances. Regulation. Protection Electrical engineering. Electrical power engineering Electrical power engineering Energy Exact sciences and technology Natural energy Organic photovoltaics Oxygen doping Photoelectric conversion Photovoltaic conversion Power networks and lines Solar cells. Photoelectrochemical cells Solar energy
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container_title	Solar energy materials and solar cells
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creator	Guerrero, Antonio Boix, Pablo P. Marchesi, Luís F. Ripolles-Sanchis, Teresa Pereira, Ernesto C. Garcia-Belmonte, Germà
description	This work investigates the loss in performance induced by molecular oxygen in bulk heterojunction solar cells. We observe that upon exposure to molecular oxygen both formation of P3HT+:O2− complex and metal oxidation at the interface between the active layer and metallic contact occur. These two different effects were separately investigated using NOBF4 as an oxidant. Our procedure has allowed studying p-doping of the active layer independently from contact degradation. A loss in photocurrent is associated with formation of P3HT+:O2− complex, which reduces the concentration of neutral P3HT present in the film in accordance with absorption and external quantum efficiency spectra. This complex is regarded as a source of a pathway of reversible degradation. Capacitance–voltage measurements allow for an accurate extraction of p-doping levels of the active layer produced by the presence of charged O2− species. In addition, one of the irreversible degradation pathways is identified to be oxidation of the metallic contact to form CaO. This oxide forms a thin dipole layer producing a voltage drop across the active layer/Ca interface, which has a direct impact on the open circuit voltage and fill factor. ► A connection is established between loss in photocurrent and donor polymer oxidation in P3HT:PCBM solar cells. ► Different oxidant agents (O2 and NOBF4) allow separating bulk from contact degradation effect. ► Oxidation level (p-doping) is monitored using the Mott–Schottky capacitance analysis.
doi_str_mv	10.1016/j.solmat.2012.01.012
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We observe that upon exposure to molecular oxygen both formation of P3HT+:O2− complex and metal oxidation at the interface between the active layer and metallic contact occur. These two different effects were separately investigated using NOBF4 as an oxidant. Our procedure has allowed studying p-doping of the active layer independently from contact degradation. A loss in photocurrent is associated with formation of P3HT+:O2− complex, which reduces the concentration of neutral P3HT present in the film in accordance with absorption and external quantum efficiency spectra. This complex is regarded as a source of a pathway of reversible degradation. Capacitance–voltage measurements allow for an accurate extraction of p-doping levels of the active layer produced by the presence of charged O2− species. In addition, one of the irreversible degradation pathways is identified to be oxidation of the metallic contact to form CaO. This oxide forms a thin dipole layer producing a voltage drop across the active layer/Ca interface, which has a direct impact on the open circuit voltage and fill factor. ► A connection is established between loss in photocurrent and donor polymer oxidation in P3HT:PCBM solar cells. ► Different oxidant agents (O2 and NOBF4) allow separating bulk from contact degradation effect. ► Oxidation level (p-doping) is monitored using the Mott–Schottky capacitance analysis.</description><identifier>ISSN: 0927-0248</identifier><identifier>EISSN: 1879-3398</identifier><identifier>DOI: 10.1016/j.solmat.2012.01.012</identifier><language>eng</language><publisher>Amsterdam: Elsevier B.V</publisher><subject>Applied sciences ; Capacitance ; Degradation ; Direct energy conversion and energy accumulation ; Disturbances. Regulation. Protection ; Electrical engineering. 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We observe that upon exposure to molecular oxygen both formation of P3HT+:O2− complex and metal oxidation at the interface between the active layer and metallic contact occur. These two different effects were separately investigated using NOBF4 as an oxidant. Our procedure has allowed studying p-doping of the active layer independently from contact degradation. A loss in photocurrent is associated with formation of P3HT+:O2− complex, which reduces the concentration of neutral P3HT present in the film in accordance with absorption and external quantum efficiency spectra. This complex is regarded as a source of a pathway of reversible degradation. Capacitance–voltage measurements allow for an accurate extraction of p-doping levels of the active layer produced by the presence of charged O2− species. In addition, one of the irreversible degradation pathways is identified to be oxidation of the metallic contact to form CaO. This oxide forms a thin dipole layer producing a voltage drop across the active layer/Ca interface, which has a direct impact on the open circuit voltage and fill factor. ► A connection is established between loss in photocurrent and donor polymer oxidation in P3HT:PCBM solar cells. ► Different oxidant agents (O2 and NOBF4) allow separating bulk from contact degradation effect. ► Oxidation level (p-doping) is monitored using the Mott–Schottky capacitance analysis.</description><subject>Applied sciences</subject><subject>Capacitance</subject><subject>Degradation</subject><subject>Direct energy conversion and energy accumulation</subject><subject>Disturbances. Regulation. Protection</subject><subject>Electrical engineering. Electrical power engineering</subject><subject>Electrical power engineering</subject><subject>Energy</subject><subject>Exact sciences and technology</subject><subject>Natural energy</subject><subject>Organic photovoltaics</subject><subject>Oxygen doping</subject><subject>Photoelectric conversion</subject><subject>Photovoltaic conversion</subject><subject>Power networks and lines</subject><subject>Solar cells. 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Regulation. Protection</topic><topic>Electrical engineering. Electrical power engineering</topic><topic>Electrical power engineering</topic><topic>Energy</topic><topic>Exact sciences and technology</topic><topic>Natural energy</topic><topic>Organic photovoltaics</topic><topic>Oxygen doping</topic><topic>Photoelectric conversion</topic><topic>Photovoltaic conversion</topic><topic>Power networks and lines</topic><topic>Solar cells. Photoelectrochemical cells</topic><topic>Solar energy</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Guerrero, Antonio</creatorcontrib><creatorcontrib>Boix, Pablo P.</creatorcontrib><creatorcontrib>Marchesi, Luís F.</creatorcontrib><creatorcontrib>Ripolles-Sanchis, Teresa</creatorcontrib><creatorcontrib>Pereira, Ernesto C.</creatorcontrib><creatorcontrib>Garcia-Belmonte, Germà</creatorcontrib><collection>Pascal-Francis</collection><collection>CrossRef</collection><collection>Meteorological & Geoastrophysical Abstracts</collection><collection>Meteorological & Geoastrophysical Abstracts - Academic</collection><jtitle>Solar energy materials and solar cells</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Guerrero, Antonio</au><au>Boix, Pablo P.</au><au>Marchesi, Luís F.</au><au>Ripolles-Sanchis, Teresa</au><au>Pereira, Ernesto C.</au><au>Garcia-Belmonte, Germà</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Oxygen doping-induced photogeneration loss in P3HT:PCBM solar cells</atitle><jtitle>Solar energy materials and solar cells</jtitle><date>2012-05-01</date><risdate>2012</risdate><volume>100</volume><spage>185</spage><epage>191</epage><pages>185-191</pages><issn>0927-0248</issn><eissn>1879-3398</eissn><abstract>This work investigates the loss in performance induced by molecular oxygen in bulk heterojunction solar cells. We observe that upon exposure to molecular oxygen both formation of P3HT+:O2− complex and metal oxidation at the interface between the active layer and metallic contact occur. These two different effects were separately investigated using NOBF4 as an oxidant. Our procedure has allowed studying p-doping of the active layer independently from contact degradation. A loss in photocurrent is associated with formation of P3HT+:O2− complex, which reduces the concentration of neutral P3HT present in the film in accordance with absorption and external quantum efficiency spectra. This complex is regarded as a source of a pathway of reversible degradation. Capacitance–voltage measurements allow for an accurate extraction of p-doping levels of the active layer produced by the presence of charged O2− species. In addition, one of the irreversible degradation pathways is identified to be oxidation of the metallic contact to form CaO. This oxide forms a thin dipole layer producing a voltage drop across the active layer/Ca interface, which has a direct impact on the open circuit voltage and fill factor. ► A connection is established between loss in photocurrent and donor polymer oxidation in P3HT:PCBM solar cells. ► Different oxidant agents (O2 and NOBF4) allow separating bulk from contact degradation effect. ► Oxidation level (p-doping) is monitored using the Mott–Schottky capacitance analysis.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.solmat.2012.01.012</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Applied sciences Capacitance Degradation Direct energy conversion and energy accumulation Disturbances. Regulation. Protection Electrical engineering. Electrical power engineering Electrical power engineering Energy Exact sciences and technology Natural energy Organic photovoltaics Oxygen doping Photoelectric conversion Photovoltaic conversion Power networks and lines Solar cells. Photoelectrochemical cells Solar energy
title	Oxygen doping-induced photogeneration loss in P3HT:PCBM solar cells
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