Application of luminescence downshifting materials for enhanced stability of CH3NH3PbI3(1-x)Cl3x perovskite photovoltaic devices

Helder Scapin Anizelli; Vasil Stoichkov; Ricardo Vignoto Fernandes; Jose Leonil Duarte; Edson Laureto; Jeffrey Kettle; Iris Visoly-Fisher; E. A.  Katz

doi:10.1016/j.orgel.2017.06.056

Application of luminescence downshifting materials for enhanced stability of CH3NH3PbI3(1-x)Cl3x perovskite photovoltaic devices

Helder Scapin Anizelli, Vasil Stoichkov, Ricardo Vignoto Fernandes, Jose Leonil Duarte, Edson Laureto, Jeffrey Kettle, Iris Visoly-Fisher, E. A. Katz

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Abstract

The application of luminescent down shifting (LDS) layers as alternative UV filters for CH3NH3PbI3(1-x)Cl3x perovskite solar cell (PSC) devices is reported. A combination of photo-absorption measurements and of device decay measurements during light soaking are used to verify the stability. The application of a UV filter or LDS layer was able to significantly retard photo-induced degradation with ∼18% drop in device power conversion efficiency (PCE) observed over 30 h for non-encapsulated devices, which is compared to ∼97% for an un-filtered device, also without encapsulation. Whilst the PCE of the PSC device decreases with the application of the LDS layer, the drop is not as significant as when a commercial UV filter is used. Considering that UV filters will be essential for the commercialization of PSCs, the work provides evidence that the LDS layer can act as an alternative UV filter in PSCs and can limit the drop in PCE that can be expected from the inclusion of a UV filter, thus providing an added benefit over commercial UV filters.

Original language	English
Pages (from-to)	129-134
Journal	Organic Electronics
Volume	49
Early online date	23 Jun 2017
DOIs	https://doi.org/10.1016/j.orgel.2017.06.056
Publication status	Published - 1 Oct 2017

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title = "Application of luminescence downshifting materials for enhanced stability of CH3NH3PbI3(1-x)Cl3x perovskite photovoltaic devices",

abstract = "The application of luminescent down shifting (LDS) layers as alternative UV filters for CH3NH3PbI3(1-x)Cl3x perovskite solar cell (PSC) devices is reported. A combination of photo-absorption measurements and of device decay measurements during light soaking are used to verify the stability. The application of a UV filter or LDS layer was able to significantly retard photo-induced degradation with ∼18\% drop in device power conversion efficiency (PCE) observed over 30 h for non-encapsulated devices, which is compared to ∼97\% for an un-filtered device, also without encapsulation. Whilst the PCE of the PSC device decreases with the application of the LDS layer, the drop is not as significant as when a commercial UV filter is used. Considering that UV filters will be essential for the commercialization of PSCs, the work provides evidence that the LDS layer can act as an alternative UV filter in PSCs and can limit the drop in PCE that can be expected from the inclusion of a UV filter, thus providing an added benefit over commercial UV filters.",

author = "Anizelli, \{Helder Scapin\} and Vasil Stoichkov and Fernandes, \{Ricardo Vignoto\} and Duarte, \{Jose Leonil\} and Edson Laureto and Jeffrey Kettle and Iris Visoly-Fisher and Katz, \{E. A.\}",

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doi = "10.1016/j.orgel.2017.06.056",

language = "English",

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journal = "Organic Electronics",

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T1 - Application of luminescence downshifting materials for enhanced stability of CH3NH3PbI3(1-x)Cl3x perovskite photovoltaic devices

AU - Anizelli, Helder Scapin

AU - Stoichkov, Vasil

AU - Fernandes, Ricardo Vignoto

AU - Duarte, Jose Leonil

AU - Laureto, Edson

AU - Kettle, Jeffrey

AU - Visoly-Fisher, Iris

AU - Katz, E. A.

PY - 2017/10/1

Y1 - 2017/10/1

N2 - The application of luminescent down shifting (LDS) layers as alternative UV filters for CH3NH3PbI3(1-x)Cl3x perovskite solar cell (PSC) devices is reported. A combination of photo-absorption measurements and of device decay measurements during light soaking are used to verify the stability. The application of a UV filter or LDS layer was able to significantly retard photo-induced degradation with ∼18% drop in device power conversion efficiency (PCE) observed over 30 h for non-encapsulated devices, which is compared to ∼97% for an un-filtered device, also without encapsulation. Whilst the PCE of the PSC device decreases with the application of the LDS layer, the drop is not as significant as when a commercial UV filter is used. Considering that UV filters will be essential for the commercialization of PSCs, the work provides evidence that the LDS layer can act as an alternative UV filter in PSCs and can limit the drop in PCE that can be expected from the inclusion of a UV filter, thus providing an added benefit over commercial UV filters.

AB - The application of luminescent down shifting (LDS) layers as alternative UV filters for CH3NH3PbI3(1-x)Cl3x perovskite solar cell (PSC) devices is reported. A combination of photo-absorption measurements and of device decay measurements during light soaking are used to verify the stability. The application of a UV filter or LDS layer was able to significantly retard photo-induced degradation with ∼18% drop in device power conversion efficiency (PCE) observed over 30 h for non-encapsulated devices, which is compared to ∼97% for an un-filtered device, also without encapsulation. Whilst the PCE of the PSC device decreases with the application of the LDS layer, the drop is not as significant as when a commercial UV filter is used. Considering that UV filters will be essential for the commercialization of PSCs, the work provides evidence that the LDS layer can act as an alternative UV filter in PSCs and can limit the drop in PCE that can be expected from the inclusion of a UV filter, thus providing an added benefit over commercial UV filters.

U2 - 10.1016/j.orgel.2017.06.056

DO - 10.1016/j.orgel.2017.06.056

M3 - Article

SN - 1566-1199

VL - 49

SP - 129

EP - 134

JO - Organic Electronics

JF - Organic Electronics

ER -

Application of luminescence downshifting materials for enhanced stability of CH3NH3PbI3(1-x)Cl3x perovskite photovoltaic devices

Abstract

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