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Efficiency gain for Bi-facial multi-crystalline solar cell With uncapped Al2O3 and local firing-through Al-BSF
The p-type bi-facial cell concept, p-PASHA (Passivated on all sides H-pattern), is developed at ECN and employs an uncapped Al 2 O 3 passivation layer on the rear through which a screen printed H-pattern of aluminium contacts is fired. Here we report a net gain in cell efficiency of 0.2% absolute fo...
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| creator | Cesar, Ilkay Manshanden, Petra Janssen, Gaby Granneman, Ernst Siarheyeva, Olga Weeber, Arthur W. |
| description | The p-type bi-facial cell concept, p-PASHA (Passivated on all sides H-pattern), is developed at ECN and employs an uncapped Al 2 O 3 passivation layer on the rear through which a screen printed H-pattern of aluminium contacts is fired. Here we report a net gain in cell efficiency of 0.2% absolute for the p-PASHA cell vs. industrial reference with the addition of a clean and an ALD step. Even higher gains up to 0.5% abs. are expected after optimization of the cell design and process. Apart from the efficiency gain, the bi-facial cell concept allows for 50-80% reduction in Al paste consumption, the use of thinner wafers, and consists of less processing steps compared to prevalent PERC concepts. The Al 2 O 3 dielectric layer is deposited in the Levitrack, an industrial-type system for high-throughput Atomic Layer Deposition (ALD) developed by Levitech. The efficiency gain is obtained on multi-crystalline wafers, at a rear metal fraction of 40%. Localized IQE mapping, cross-sectional SEM investigation, resistance measurements and 2D simulation relate the efficiency improvement compared to our conventional process to better eutectic and BSF formation at the Al contact edges. |
| doi_str_mv | 10.1109/PVSC.2013.6744358 |
| format | conference_proceeding |
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Here we report a net gain in cell efficiency of 0.2% absolute for the p-PASHA cell vs. industrial reference with the addition of a clean and an ALD step. Even higher gains up to 0.5% abs. are expected after optimization of the cell design and process. Apart from the efficiency gain, the bi-facial cell concept allows for 50-80% reduction in Al paste consumption, the use of thinner wafers, and consists of less processing steps compared to prevalent PERC concepts. The Al 2 O 3 dielectric layer is deposited in the Levitrack, an industrial-type system for high-throughput Atomic Layer Deposition (ALD) developed by Levitech. The efficiency gain is obtained on multi-crystalline wafers, at a rear metal fraction of 40%. 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Here we report a net gain in cell efficiency of 0.2% absolute for the p-PASHA cell vs. industrial reference with the addition of a clean and an ALD step. Even higher gains up to 0.5% abs. are expected after optimization of the cell design and process. Apart from the efficiency gain, the bi-facial cell concept allows for 50-80% reduction in Al paste consumption, the use of thinner wafers, and consists of less processing steps compared to prevalent PERC concepts. The Al 2 O 3 dielectric layer is deposited in the Levitrack, an industrial-type system for high-throughput Atomic Layer Deposition (ALD) developed by Levitech. The efficiency gain is obtained on multi-crystalline wafers, at a rear metal fraction of 40%. Localized IQE mapping, cross-sectional SEM investigation, resistance measurements and 2D simulation relate the efficiency improvement compared to our conventional process to better eutectic and BSF formation at the Al contact edges.</abstract><pub>IEEE</pub><doi>10.1109/PVSC.2013.6744358</doi><tpages>6</tpages></addata></record> |
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| identifier | ISSN: 0160-8371 |
| ispartof | 2013 IEEE 39th Photovoltaic Specialists Conference (PVSC), 2013, p.1212-1217 |
| issn | 0160-8371 |
| language | eng |
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| source | IEEE Xplore All Conference Series |
| subjects | Al 2 O 3 Al-BSF ALD Aluminum oxide Bi-facial Dielectrics eutectic Firing firing-through Metallization multi-crystalline p-type Passivation Photovoltaic cells |
| title | Efficiency gain for Bi-facial multi-crystalline solar cell With uncapped Al2O3 and local firing-through Al-BSF |
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