Environmentally friendly biomaterials as an interfacial layer for highly efficient and air-stable inverted organic solar cells

Riming Nie; Aiyuan Li; Xianyu Deng

doi:10.1039/c4ta00152d

Environmentally friendly biomaterials as an interfacial layer for highly efficient and air-stable inverted organic solar cells

Riming Nie
, Aiyuan Li
, Xianyu Deng^*

^*Corresponding author for this work

Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

Appropriate interfacial modification plays an important role in the high performance of organic solar cells. We report that a transparent cathode of indium tin oxide (ITO) modified with an ultrathin layer of peptide, an environmentally friendly biomaterial, shows an obvious reduction in the work function. Investigation of the device exhibits that the power conversion efficiency (PCE) was significantly increased from 2.12% to 8.13% with the use of the peptide modification. The inverted device with the peptide-modified ITO as the cathode showed significantly longer time efficiency delay in air than conventional forward devices with an active metal as the cathode. Because peptides are biological materials that exist naturally in living things, the results provide an environmentally safe method to fabricate highly efficient and air-stable organic solar cells.

Original language	English
Pages (from-to)	6734-6739
Number of pages	6
Journal	Journal of Materials Chemistry A
Volume	2
Issue number	19
DOIs	https://doi.org/10.1039/c4ta00152d
State	Published - 21 May 2014
Externally published	Yes

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10.1039/c4ta00152d

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title = "Environmentally friendly biomaterials as an interfacial layer for highly efficient and air-stable inverted organic solar cells",

abstract = "Appropriate interfacial modification plays an important role in the high performance of organic solar cells. We report that a transparent cathode of indium tin oxide (ITO) modified with an ultrathin layer of peptide, an environmentally friendly biomaterial, shows an obvious reduction in the work function. Investigation of the device exhibits that the power conversion efficiency (PCE) was significantly increased from 2.12\% to 8.13\% with the use of the peptide modification. The inverted device with the peptide-modified ITO as the cathode showed significantly longer time efficiency delay in air than conventional forward devices with an active metal as the cathode. Because peptides are biological materials that exist naturally in living things, the results provide an environmentally safe method to fabricate highly efficient and air-stable organic solar cells.",

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AU - Li, Aiyuan

AU - Deng, Xianyu

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Y1 - 2014/5/21

N2 - Appropriate interfacial modification plays an important role in the high performance of organic solar cells. We report that a transparent cathode of indium tin oxide (ITO) modified with an ultrathin layer of peptide, an environmentally friendly biomaterial, shows an obvious reduction in the work function. Investigation of the device exhibits that the power conversion efficiency (PCE) was significantly increased from 2.12% to 8.13% with the use of the peptide modification. The inverted device with the peptide-modified ITO as the cathode showed significantly longer time efficiency delay in air than conventional forward devices with an active metal as the cathode. Because peptides are biological materials that exist naturally in living things, the results provide an environmentally safe method to fabricate highly efficient and air-stable organic solar cells.

AB - Appropriate interfacial modification plays an important role in the high performance of organic solar cells. We report that a transparent cathode of indium tin oxide (ITO) modified with an ultrathin layer of peptide, an environmentally friendly biomaterial, shows an obvious reduction in the work function. Investigation of the device exhibits that the power conversion efficiency (PCE) was significantly increased from 2.12% to 8.13% with the use of the peptide modification. The inverted device with the peptide-modified ITO as the cathode showed significantly longer time efficiency delay in air than conventional forward devices with an active metal as the cathode. Because peptides are biological materials that exist naturally in living things, the results provide an environmentally safe method to fabricate highly efficient and air-stable organic solar cells.

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ER -

Environmentally friendly biomaterials as an interfacial layer for highly efficient and air-stable inverted organic solar cells

Abstract

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