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The effect of post-annealing on the performance of the Cu2ZnSnS4 solar cells

Mungunshagai Gansukh, Filipe Martinho, Moisés Espíndola, Sara Lena Josefin Engberg, Jørgen Schou, Stela Canulescu

2024Scientific Reports11 citationsDOIOpen Access PDF

Abstract

(CZTS) solar cells commonly undergo post-annealing treatments to enhance their performance. However, multiple concurrent effects, including Cu-Zn disorder, Na diffusion from the back contact, CZTS grain boundary passivation, and elemental interdiffusion at the CdS/CZTS interface, can occur simultaneously during post-annealing, making it challenging to isolate their specific influence on device performance. To address this complexity, we have utilized Cu-Zn-disordered CZTS absorbers to eliminate the influence of Cu-Zn disorder in this study. Post-annealing experiments conducted at 120 to 300 °C in nitrogen and air atmospheres aim to decouple and assess the impact of different annealing conditions on the performance of CZTS solar cells. Our findings suggest that the optimal post-annealing might be a combined effect of two distinct processes: CZTS absorber surface passivation occurring at 325 °C and CdS crystallization at 225 °C. Hence, improvement in device performance could result from multiple concurrent mechanisms occurring at different temperatures.

Topics & Concepts

CZTSPassivationAnnealing (glass)Materials scienceGrain boundaryCrystallizationChemical engineeringOptoelectronicsSolar cellMetallurgyNanotechnologyMicrostructureLayer (electronics)EngineeringChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And PropertiesCopper-based nanomaterials and applications
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