Controlling Interfacial Charge Transfer and Fill Factors in CuO-based Tandem Dye-Sensitized Solar Cells

Oliver Langmar; Ettore Fazio; Peter Schol; Gema de la Torre; Rubén D. Costa; Tomás Torres; Dirk M. Guldi

doi:10.1002/anie.201812397

Controlling Interfacial Charge Transfer and Fill Factors in CuO-based Tandem Dye-Sensitized Solar Cells

Oliver Langmar, Ettore Fazio, Peter Schol, Gema de la Torre, Rubén D. Costa, Tomás Torres^*, Dirk M. Guldi

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研究成果: Article › 査読

27 被引用数 (Scopus)

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We designed and synthesized a series of novel electron-accepting zinc(II)phthalocyanines (ZnPc) and probed them in p-type dye sensitized solar cells (p-DSSCs) by using CuO as photocathodes. By realizing the right balance between interfacial charge separation and charge recombination, optimized fill factors (FFs) of 0.43 were obtained. With a control over fill factors in p-DSSCs in hand we turned our attemtion to t-DSSCs, in which we combined for the first time CuO-based p-DSSCs with TiO ₂ -based n-DSSCs using ZnPc and N719. In the resulting t-DSSCs, the V _OC of 0.86 V is the sum of those found in p- and n-DSSCs, while the FF remains around 0.63. It is only the smaller J _sc s in t-DSSCs that limits the efficiency to 0.69 %.

本文言語	English
ページ（範囲）	4056-4060
ページ数	5
ジャーナル	Angewandte Chemie - International Edition
巻	58
号	12
DOI	https://doi.org/10.1002/anie.201812397
出版ステータス	Published - 2019 3月 18
外部発表	はい

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化学 (全般)

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title = "Controlling Interfacial Charge Transfer and Fill Factors in CuO-based Tandem Dye-Sensitized Solar Cells",

abstract = " We designed and synthesized a series of novel electron-accepting zinc(II)phthalocyanines (ZnPc) and probed them in p-type dye sensitized solar cells (p-DSSCs) by using CuO as photocathodes. By realizing the right balance between interfacial charge separation and charge recombination, optimized fill factors (FFs) of 0.43 were obtained. With a control over fill factors in p-DSSCs in hand we turned our attemtion to t-DSSCs, in which we combined for the first time CuO-based p-DSSCs with TiO 2 -based n-DSSCs using ZnPc and N719. In the resulting t-DSSCs, the V OC of 0.86 V is the sum of those found in p- and n-DSSCs, while the FF remains around 0.63. It is only the smaller J sc s in t-DSSCs that limits the efficiency to 0.69 %. ",

keywords = "copper(II)oxide, dye-sensitized solar cells, panchromatic light absorption, tandem device, zinc(II)phthalocyanine",

author = "Oliver Langmar and Ettore Fazio and Peter Schol and {de la Torre}, Gema and Costa, {Rub{\'e}n D.} and Tom{\'a}s Torres and Guldi, {Dirk M.}",

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AU - Langmar, Oliver

AU - Fazio, Ettore

AU - Schol, Peter

AU - de la Torre, Gema

AU - Costa, Rubén D.

AU - Torres, Tomás

AU - Guldi, Dirk M.

PY - 2019/3/18

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N2 - We designed and synthesized a series of novel electron-accepting zinc(II)phthalocyanines (ZnPc) and probed them in p-type dye sensitized solar cells (p-DSSCs) by using CuO as photocathodes. By realizing the right balance between interfacial charge separation and charge recombination, optimized fill factors (FFs) of 0.43 were obtained. With a control over fill factors in p-DSSCs in hand we turned our attemtion to t-DSSCs, in which we combined for the first time CuO-based p-DSSCs with TiO 2 -based n-DSSCs using ZnPc and N719. In the resulting t-DSSCs, the V OC of 0.86 V is the sum of those found in p- and n-DSSCs, while the FF remains around 0.63. It is only the smaller J sc s in t-DSSCs that limits the efficiency to 0.69 %.

AB - We designed and synthesized a series of novel electron-accepting zinc(II)phthalocyanines (ZnPc) and probed them in p-type dye sensitized solar cells (p-DSSCs) by using CuO as photocathodes. By realizing the right balance between interfacial charge separation and charge recombination, optimized fill factors (FFs) of 0.43 were obtained. With a control over fill factors in p-DSSCs in hand we turned our attemtion to t-DSSCs, in which we combined for the first time CuO-based p-DSSCs with TiO 2 -based n-DSSCs using ZnPc and N719. In the resulting t-DSSCs, the V OC of 0.86 V is the sum of those found in p- and n-DSSCs, while the FF remains around 0.63. It is only the smaller J sc s in t-DSSCs that limits the efficiency to 0.69 %.

KW - copper(II)oxide

KW - dye-sensitized solar cells

KW - panchromatic light absorption

KW - tandem device

KW - zinc(II)phthalocyanine

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Controlling Interfacial Charge Transfer and Fill Factors in CuO-based Tandem Dye-Sensitized Solar Cells

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