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Title: Excess carrier concentration in silicon devices and wafers: How bulk properties are expected to accelerate light and elevated temperature degradation

Journal Article · · MRS Advances (Online)

Light and elevated temperature induced degradation (LeTID) is accelerated nearly linearly by the presence of excess carriers. It is therefore important to understand how excess carrier concentration (Δn) changes as a function of exposure conditions, materials properties, and sample structure. We simulate Δn as a function of wafer thickness and bulk minority carrier lifetime (τ) in solar cells and wafers using SCAPS and Quokka3. We also derive closed-form analytic expressions. For wafers, there is a near-linear relationship between Δn and τ or thickness, whereas for solar cells, Δn in the bulk may become limited by rear surface recombination. Thus, LeTID may progress more quickly in wafers than in cells, with a stronger dependence on τ. When comparing experiments, observed degradation rates must be corrected between samples or conditions to account for differences in Δn. This study demonstrates three tools to estimate the magnitude of such corrections, which can aid in the quantitative interpretation of LeTID data and performance predictions. Finally, while each tool yields similar results, there are advantages to each approach that must be weighed in terms of simplicity of inputs versus sophistication of treatment. Incomplete specification of back contact characteristics in commercial products is identified as an important contributor to uncertainty in expected LeTID rates.

Research Organization:
National Renewable Energy Laboratory (NREL), Golden, CO (United States)
Sponsoring Organization:
USDOE Office of Energy Efficiency and Renewable Energy (EERE), Renewable Power Office. Solar Energy Technologies Office
Grant/Contract Number:
AC36-08GO28308
OSTI ID:
1845965
Report Number(s):
NREL/JA-5F00-81245; MainId:82018; UUID:9f0c63b7-662b-4dff-8780-05eae9d93652; MainAdminID:63837
Journal Information:
MRS Advances (Online), Journal Name: MRS Advances (Online) Journal Issue: 21 Vol. 7; ISSN 2731-5894
Publisher:
Springer NatureCopyright Statement
Country of Publication:
United States
Language:
English

References (18)

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Possible Candidates for Impurities in mc-Si Wafers Responsible for Light-Induced Lifetime Degradation and Regeneration journal December 2017
Kinetics Study on Carrier Injection‐Induced Degradation and Regeneration at Elevated Temperature in p‐Type Cast‐Monosilicon Passivated Emitter Rear Contact Solar Cells journal April 2021
Modelling polycrystalline semiconductor solar cells journal February 2000
Analysis and Optimization of the Bulk and Rear Recombination of Screen-Printed PERC Solar Cells journal January 2012
Recovery of LeTID by low intensity illumination: Reaction kinetics, completeness and threshold temperature journal September 2017
System performance loss due to LeTID journal September 2017
Flexible silicon solar cells journal August 2009
The concept of skins for silicon solar cell modeling journal December 2017
Kinetics of carrier-induced degradation at elevated temperature in multicrystalline silicon solar cells journal December 2017
Light-induced lifetime degradation in high-performance multicrystalline silicon: Detailed kinetics of the defect activation journal December 2017
Surface passivation of crystalline silicon solar cells: Present and future journal December 2018
Advanced analytical model for the effective recombination velocity of locally contacted surfaces journal July 2010
On effective surface recombination parameters journal July 2014
Lifetime degradation and regeneration in multicrystalline silicon under illumination at elevated temperature journal March 2016
Kinetics of the permanent deactivation of the boron-oxygen complex in crystalline silicon as a function of illumination intensity journal March 2017
A Free and Fast Three-Dimensional/Two-Dimensional Solar Cell Simulator Featuring Conductive Boundary and Quasi-Neutrality Approximations journal February 2013
Spatially Resolved Degradation and Regeneration Kinetics in mc-Si text January 2016

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