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arxiv: 2404.14426 · v1 · pith:ERBD6CXQ · submitted 2024-04-17 · cond-mat.mtrl-sci · physics.app-ph

Cation exchange synthesis of AgBiS₂ quantum dots for highly efficient solar cells

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classification cond-mat.mtrl-sci physics.app-ph
keywords nanocrystalsagbiscationexchangesynthesisapproachbismuthsolar
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Silver bismuth sulfide (AgBiS$_2$) nanocrystals have emerged as a promising eco-friendly, low-cost solar cell absorber material. Their direct synthesis often relies on the hot-injection method, requiring the application of high temperatures and vacuum for prolonged times. Here, we demonstrate an alternative synthetic approach via a cation exchange reaction. In the first-step, bis(stearoyl)sulfide is used as an air-stable sulfur precursor for the synthesis of small, monodisperse Ag2S nanocrystals at room-temperature. In a second step, bismuth cations are incorporated into the nanocrystal lattice to form ternary AgBiS$_2$ nanocrystals, without altering their size and shape. When implemented into photovoltaic devices, AgBiS$_2$ nanocrystals obtained by cation exchange reach power conversion efficiencies of up to 7.35%, demonstrating the efficacy of the new synthetic approach for the formation of high-quality, ternary semiconducting nanocrystals.

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