纳米晶
量子点
铋
硫化铅
三元运算
光伏系统
硫化物
分散性
纳米技术
材料科学
太阳能电池
量子点太阳电池
化学工程
光电子学
聚合物太阳能电池
冶金
工程类
程序设计语言
高分子化学
生物
计算机科学
生态学
作者
Alina Senina,Anatol Prudnikau,Angelika Wrzesińska‐Lashkova,Yana Vaynzof,Fabian Paulus
出处
期刊:Nanoscale
[Royal Society of Chemistry]
日期:2024-01-01
摘要
Silver bismuth sulfide (AgBiS2) 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 AgBiS2 nanocrystals, without altering their size and shape. When implemented into photovoltaic devices, AgBiS2 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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