Laser Ablation for Low-Cost Multijunction III-V Solar Cell Mesa Isolations

AJ Gray; Jeff Squier; Myles Steiner; Theresa Saenz

Laser Ablation for Low-Cost Multijunction III-V Solar Cell Mesa Isolations

Colorado School of Mines

Research output: NLR › Poster

Abstract

Eliminating photolithography from solar cell processing is a significant opportunity for cost reduction for III-V solar cells. In this work, we test femtosecond laser ablation and scribing as an alternative to contact photolithography and wet chemical etching for mesa isolation, when processing multijunction cells. We demonstrate that upright multijunction solar cells isolated by using the laser as a scribe to cleave through the substrate had virtually no performance loss when compared to a baseline cell processed with photolithography. By contrast, cells isolated by laser ablating through the active layers have performance losses that cannot be fully eliminated with post-processing etches. This demonstration of photolithography-free mesa isolation with no performance losses is promising for less expensive III-V manufacturing.

Original language	American English
Publisher	National Renewable Energy Laboratory (NREL)
Number of pages	1
State	Published - 2025

Publication series

Name	Presented at the 106th IUVSTA Workshop, 17-20 February 2025, Golden, Colorado

NLR Publication Number

NREL/PO-5900-92747

Keywords

III-V
laser ablation
mesa isolation
multijunction
photovoltaic
PV
solar cell

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https://www.nrel.gov/docs/fy26osti/92747.pdf

Cite this

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title = "Laser Ablation for Low-Cost Multijunction III-V Solar Cell Mesa Isolations",

abstract = "Eliminating photolithography from solar cell processing is a significant opportunity for cost reduction for III-V solar cells. In this work, we test femtosecond laser ablation and scribing as an alternative to contact photolithography and wet chemical etching for mesa isolation, when processing multijunction cells. We demonstrate that upright multijunction solar cells isolated by using the laser as a scribe to cleave through the substrate had virtually no performance loss when compared to a baseline cell processed with photolithography. By contrast, cells isolated by laser ablating through the active layers have performance losses that cannot be fully eliminated with post-processing etches. This demonstration of photolithography-free mesa isolation with no performance losses is promising for less expensive III-V manufacturing.",

keywords = "III-V, laser ablation, mesa isolation, multijunction, photovoltaic, PV, solar cell",

author = "AJ Gray and Jeff Squier and Myles Steiner and Theresa Saenz",

year = "2025",

language = "American English",

series = "Presented at the 106th IUVSTA Workshop, 17-20 February 2025, Golden, Colorado",

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TY - GEN

T1 - Laser Ablation for Low-Cost Multijunction III-V Solar Cell Mesa Isolations

AU - Gray, AJ

AU - Squier, Jeff

AU - Steiner, Myles

AU - Saenz, Theresa

PY - 2025

Y1 - 2025

N2 - Eliminating photolithography from solar cell processing is a significant opportunity for cost reduction for III-V solar cells. In this work, we test femtosecond laser ablation and scribing as an alternative to contact photolithography and wet chemical etching for mesa isolation, when processing multijunction cells. We demonstrate that upright multijunction solar cells isolated by using the laser as a scribe to cleave through the substrate had virtually no performance loss when compared to a baseline cell processed with photolithography. By contrast, cells isolated by laser ablating through the active layers have performance losses that cannot be fully eliminated with post-processing etches. This demonstration of photolithography-free mesa isolation with no performance losses is promising for less expensive III-V manufacturing.

AB - Eliminating photolithography from solar cell processing is a significant opportunity for cost reduction for III-V solar cells. In this work, we test femtosecond laser ablation and scribing as an alternative to contact photolithography and wet chemical etching for mesa isolation, when processing multijunction cells. We demonstrate that upright multijunction solar cells isolated by using the laser as a scribe to cleave through the substrate had virtually no performance loss when compared to a baseline cell processed with photolithography. By contrast, cells isolated by laser ablating through the active layers have performance losses that cannot be fully eliminated with post-processing etches. This demonstration of photolithography-free mesa isolation with no performance losses is promising for less expensive III-V manufacturing.

KW - III-V

KW - laser ablation

KW - mesa isolation

KW - multijunction

KW - photovoltaic

KW - PV

KW - solar cell

M3 - Poster

T3 - Presented at the 106th IUVSTA Workshop, 17-20 February 2025, Golden, Colorado

PB - National Renewable Energy Laboratory (NREL)

ER -

Laser Ablation for Low-Cost Multijunction III-V Solar Cell Mesa Isolations

Abstract

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NLR Publication Number

Keywords

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