An Investigation into CIGS Thin-Films Solar Cell P2 Layer Scribing Depth and Width Using Different Laser Process Parameters

Dyi Cheng Chen; Ming Fei Chen; Ming Ren Chen

doi:10.1155/2015/894673

An Investigation into CIGS Thin-Films Solar Cell P2 Layer Scribing Depth and Width Using Different Laser Process Parameters

Dyi Cheng Chen, Ming Fei Chen, Ming Ren Chen

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

1 Citation (Scopus)

Abstract

This study will be about UV (355 nm) laser processing system as a carrier. It studied electrode insulated characteristic using laser direct forming for CIGS solar cell technology P2 layer of stainless steel. It explored the impact of this process on the way to stainless steel substrate P2 film sizes using its laser different focus position, energy density, and scanning velocities. According to the experiment results, the scribing results are straight line and larger width under minus leave perpendicularity and positive leave perpendicularity and the laser scanning velocities at 101000 mm/s underline width about 0.96 m1.07 m. The experiment results confirm that the laser apparatus is effective when applied to a stainless steel CIGS solar cell P2 layer.

Original language	English
Article number	894673
Journal	Advances in Materials Science and Engineering
Volume	2015
DOIs	https://doi.org/10.1155/2015/894673
Publication status	Published - 2015

All Science Journal Classification (ASJC) codes

Materials Science(all)
Engineering(all)

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title = "An Investigation into CIGS Thin-Films Solar Cell P2 Layer Scribing Depth and Width Using Different Laser Process Parameters",

abstract = "This study will be about UV (355 nm) laser processing system as a carrier. It studied electrode insulated characteristic using laser direct forming for CIGS solar cell technology P2 layer of stainless steel. It explored the impact of this process on the way to stainless steel substrate P2 film sizes using its laser different focus position, energy density, and scanning velocities. According to the experiment results, the scribing results are straight line and larger width under minus leave perpendicularity and positive leave perpendicularity and the laser scanning velocities at 101000 mm/s underline width about 0.96 m1.07 m. The experiment results confirm that the laser apparatus is effective when applied to a stainless steel CIGS solar cell P2 layer.",

author = "Chen, {Dyi Cheng} and Chen, {Ming Fei} and Chen, {Ming Ren}",

year = "2015",

doi = "10.1155/2015/894673",

language = "English",

volume = "2015",

journal = "Advances in Materials Science and Engineering",

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N2 - This study will be about UV (355 nm) laser processing system as a carrier. It studied electrode insulated characteristic using laser direct forming for CIGS solar cell technology P2 layer of stainless steel. It explored the impact of this process on the way to stainless steel substrate P2 film sizes using its laser different focus position, energy density, and scanning velocities. According to the experiment results, the scribing results are straight line and larger width under minus leave perpendicularity and positive leave perpendicularity and the laser scanning velocities at 101000 mm/s underline width about 0.96 m1.07 m. The experiment results confirm that the laser apparatus is effective when applied to a stainless steel CIGS solar cell P2 layer.

AB - This study will be about UV (355 nm) laser processing system as a carrier. It studied electrode insulated characteristic using laser direct forming for CIGS solar cell technology P2 layer of stainless steel. It explored the impact of this process on the way to stainless steel substrate P2 film sizes using its laser different focus position, energy density, and scanning velocities. According to the experiment results, the scribing results are straight line and larger width under minus leave perpendicularity and positive leave perpendicularity and the laser scanning velocities at 101000 mm/s underline width about 0.96 m1.07 m. The experiment results confirm that the laser apparatus is effective when applied to a stainless steel CIGS solar cell P2 layer.

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