Enhancing Lifetime, Forecasting, and Economic Benefits of Photovoltaic Technologies Undergoing UV-Induced Degradation with Optical Filtering: Article No. 04SP31

Peter Hacke; David Miller; Florent Sahli; Archana Sinha; Katherine Hurst; Antonin Faes; Marion Dussouillez; Stephanie L. Moffitt; Michael Woodhouse; Quentin Jeangros; Adriana Paracchino; Alessandro Virtuani; Christian M. Wolff; Christophe Ballif

doi:10.35848/1347-4065/adbf29

Enhancing Lifetime, Forecasting, and Economic Benefits of Photovoltaic Technologies Undergoing UV-Induced Degradation with Optical Filtering: Article No. 04SP31

Peter Hacke, David Miller, Florent Sahli, Archana Sinha, Katherine Hurst, Antonin Faes, Marion Dussouillez, Stephanie L. Moffitt, Michael Woodhouse, Quentin Jeangros, Adriana Paracchino, Alessandro Virtuani, Christian M. Wolff, Christophe Ballif

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

Abstract

Ultraviolet-induced degradation (UV-ID) of various PV cell types was analyzed under optical UV filters with different cutoff wavelengths. Cell types studied included interdigitated back contact (IBC), passivated emitter and rear totally diffused (PERT), and heterojunction technology (HJT) based on crystalline Si (c-Si), and metal halide perovskite (MHP) cells. Analyzing degradation rates in two distinct regimes proved beneficial for all cell types. We used empirical linearizing functions ln(t) for c-Si technologies and 2 square root(t) for MHP samples where t is time. These were applied to extrapolate UV-induced degradation over the lifetime of PV modules under various levels of optical UV filtering and used to predict the relative economic benefits for PV power plants. Degradation rates for all technologies were generally faster under the long pass optical filters having shorter cutoff wavelengths transmitting more UV irradiation and at elevated temperatures when testing MHP samples in the range between 60 degrees C and 90 degrees C.

Original language	American English
Number of pages	12
Journal	Japanese Journal of Applied Physics, Part 2: Letters
Volume	64
Issue number	4
DOIs	https://doi.org/10.35848/1347-4065/adbf29
State	Published - 2025

NREL Publication Number

NREL/JA-5K00-93350

Keywords

encapsulation
modules
photovoltaic
ultraviolet-induced
UV-induced

Access to Document

10.35848/1347-4065/adbf29

https://www.nrel.gov/docs/fy25osti/93350.pdf

Cite this

Hacke, P., Miller, D., Sahli, F., Sinha, A., Hurst, K., Faes, A., Dussouillez, M., Moffitt, S. L., Woodhouse, M., Jeangros, Q., Paracchino, A., Virtuani, A., Wolff, C. M., & Ballif, C. (2025). Enhancing Lifetime, Forecasting, and Economic Benefits of Photovoltaic Technologies Undergoing UV-Induced Degradation with Optical Filtering: Article No. 04SP31. Japanese Journal of Applied Physics, Part 2: Letters, 64(4). https://doi.org/10.35848/1347-4065/adbf29

@article{cc98427ee40f491bb9d45d08145d974e,

title = "Enhancing Lifetime, Forecasting, and Economic Benefits of Photovoltaic Technologies Undergoing UV-Induced Degradation with Optical Filtering: Article No. 04SP31",

abstract = "Ultraviolet-induced degradation (UV-ID) of various PV cell types was analyzed under optical UV filters with different cutoff wavelengths. Cell types studied included interdigitated back contact (IBC), passivated emitter and rear totally diffused (PERT), and heterojunction technology (HJT) based on crystalline Si (c-Si), and metal halide perovskite (MHP) cells. Analyzing degradation rates in two distinct regimes proved beneficial for all cell types. We used empirical linearizing functions ln(t) for c-Si technologies and 2 square root(t) for MHP samples where t is time. These were applied to extrapolate UV-induced degradation over the lifetime of PV modules under various levels of optical UV filtering and used to predict the relative economic benefits for PV power plants. Degradation rates for all technologies were generally faster under the long pass optical filters having shorter cutoff wavelengths transmitting more UV irradiation and at elevated temperatures when testing MHP samples in the range between 60 degrees C and 90 degrees C.",

keywords = "encapsulation, modules, photovoltaic, ultraviolet-induced, UV-induced",

author = "Peter Hacke and David Miller and Florent Sahli and Archana Sinha and Katherine Hurst and Antonin Faes and Marion Dussouillez and Moffitt, {Stephanie L.} and Michael Woodhouse and Quentin Jeangros and Adriana Paracchino and Alessandro Virtuani and Wolff, {Christian M.} and Christophe Ballif",

year = "2025",

doi = "10.35848/1347-4065/adbf29",

language = "American English",

volume = "64",

journal = "Japanese Journal of Applied Physics, Part 2: Letters",

issn = "0021-4922",

publisher = "Japan Society of Applied Physics",

number = "4",

}

Hacke, P , Miller, D, Sahli, F, Sinha, A, Hurst, K, Faes, A, Dussouillez, M, Moffitt, SL, Woodhouse, M, Jeangros, Q, Paracchino, A, Virtuani, A, Wolff, CM & Ballif, C 2025, 'Enhancing Lifetime, Forecasting, and Economic Benefits of Photovoltaic Technologies Undergoing UV-Induced Degradation with Optical Filtering: Article No. 04SP31', Japanese Journal of Applied Physics, Part 2: Letters, vol. 64, no. 4. https://doi.org/10.35848/1347-4065/adbf29

TY - JOUR

T1 - Enhancing Lifetime, Forecasting, and Economic Benefits of Photovoltaic Technologies Undergoing UV-Induced Degradation with Optical Filtering

T2 - Article No. 04SP31

AU - Hacke, Peter

AU - Miller, David

AU - Sahli, Florent

AU - Sinha, Archana

AU - Hurst, Katherine

AU - Faes, Antonin

AU - Dussouillez, Marion

AU - Moffitt, Stephanie L.

AU - Woodhouse, Michael

AU - Jeangros, Quentin

AU - Paracchino, Adriana

AU - Virtuani, Alessandro

AU - Wolff, Christian M.

AU - Ballif, Christophe

PY - 2025

Y1 - 2025

N2 - Ultraviolet-induced degradation (UV-ID) of various PV cell types was analyzed under optical UV filters with different cutoff wavelengths. Cell types studied included interdigitated back contact (IBC), passivated emitter and rear totally diffused (PERT), and heterojunction technology (HJT) based on crystalline Si (c-Si), and metal halide perovskite (MHP) cells. Analyzing degradation rates in two distinct regimes proved beneficial for all cell types. We used empirical linearizing functions ln(t) for c-Si technologies and 2 square root(t) for MHP samples where t is time. These were applied to extrapolate UV-induced degradation over the lifetime of PV modules under various levels of optical UV filtering and used to predict the relative economic benefits for PV power plants. Degradation rates for all technologies were generally faster under the long pass optical filters having shorter cutoff wavelengths transmitting more UV irradiation and at elevated temperatures when testing MHP samples in the range between 60 degrees C and 90 degrees C.

AB - Ultraviolet-induced degradation (UV-ID) of various PV cell types was analyzed under optical UV filters with different cutoff wavelengths. Cell types studied included interdigitated back contact (IBC), passivated emitter and rear totally diffused (PERT), and heterojunction technology (HJT) based on crystalline Si (c-Si), and metal halide perovskite (MHP) cells. Analyzing degradation rates in two distinct regimes proved beneficial for all cell types. We used empirical linearizing functions ln(t) for c-Si technologies and 2 square root(t) for MHP samples where t is time. These were applied to extrapolate UV-induced degradation over the lifetime of PV modules under various levels of optical UV filtering and used to predict the relative economic benefits for PV power plants. Degradation rates for all technologies were generally faster under the long pass optical filters having shorter cutoff wavelengths transmitting more UV irradiation and at elevated temperatures when testing MHP samples in the range between 60 degrees C and 90 degrees C.

KW - encapsulation

KW - modules

KW - photovoltaic

KW - ultraviolet-induced

KW - UV-induced

U2 - 10.35848/1347-4065/adbf29

DO - 10.35848/1347-4065/adbf29

M3 - Article

SN - 0021-4922

VL - 64

JO - Japanese Journal of Applied Physics, Part 2: Letters

JF - Japanese Journal of Applied Physics, Part 2: Letters

IS - 4

ER -

Enhancing Lifetime, Forecasting, and Economic Benefits of Photovoltaic Technologies Undergoing UV-Induced Degradation with Optical Filtering: Article No. 04SP31

Abstract

NREL Publication Number

Keywords

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