碘化铯辅助合成高质量、稳定和坚固的无铅过氧化物量子点。

IF 10.7 2区 材料科学 Q1 CHEMISTRY, PHYSICAL
Shiang Li, Yuhao Li, Minchao Qin, Luhang Xu, Yuang Fu, Pok Fung Chan, Xinhui Lu
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引用次数: 0

摘要

锡基包晶石量子点(TQDs)形态不佳且易氧化,这给其应用潜力带来了巨大挑战。本研究提出了一种通过加入 Cs2CO3 和 CsI 混合铯源合成高质量 CsSnI3 基光致量子点(TQDs)的简单方法。CsI 的加入提高了 I:Sn 的比例,同时保持了 Sn:Cs 的比例,从而使 TQDs 的尺寸更小,均匀性更好。X 射线光电子能谱 (XPS) 和核磁共振 (NMR) 分析证实,CsI-TQDs 的结晶度、光致发光强度和抗氧化能力都有所提高。值得注意的是,这些 TQDs 表现出了超强的稳定性,在空气中可维持 1 小时以上,在完全氧化前可维持 24 小时以上,超过了之前报道的含传统油酸(OA)和油胺(OAm)配体的 TQDs 在空气中的最长寿命。此外,这些 TQD 薄膜在与乙酸甲酯(MeOAc)和碘化甲脒(FAI)进行配体交换后仍能保持稳健性,这是 TQDs 首次成功实现短配体交换,从而进一步推动了电子器件的应用。这些研究结果表明,铯源中的 CsI 在促进表面复合物的形成、调节 TQD 生长和抑制碘空位方面起着至关重要的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Caesium-Iodide-Assisted Synthesis of High-Quality, Stable, and Robust Lead-Free Perovskite Quantum Dots.

The poor morphology, and susceptibility to oxidation of tin-based perovskite quantum dots (TQDs) have posed significant challenges, limiting their application potential. This study presents a straightforward method for synthesizing high-quality CsSnI3-based perovskite quantum dots (TQDs) by incorporating a mixed Cs source of Cs2CO3 and CsI. The addition of CsI increased the I:Sn ratio while maintaining Sn:Cs, resulting in TQDs with smaller size and improved uniformity. X-ray photoelectron spectroscopy (XPS), and Nuclear magnetic resonance (NMR) analyses confirmed enhanced crystallinity, photoluminescence intensity, and antioxidation ability of CsI-TQDs. Remarkably, these TQDs exhibit exceptional stability, enduring over 1 h in air and more than 24 h before complete oxidation, surpassing the previously reported longest lifetime in air for TQDs with conventional oleic acid (OA) and oleylamine (OAm) ligands. Furthermore, these TQD films retain robustness after ligand exchange with methyl acetate (MeOAc) and formamidinium iodide (FAI), representing the first successful short-ligand exchange of TQDs and enabling further electronic device applications. These findings suggest that CsI in the Cs source plays a crucial role in facilitating the formation of surface complexes, regulating TQD growth and suppressing iodine vacancies.

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来源期刊
Small Methods
Small Methods Materials Science-General Materials Science
CiteScore
17.40
自引率
1.60%
发文量
347
期刊介绍: Small Methods is a multidisciplinary journal that publishes groundbreaking research on methods relevant to nano- and microscale research. It welcomes contributions from the fields of materials science, biomedical science, chemistry, and physics, showcasing the latest advancements in experimental techniques. With a notable 2022 Impact Factor of 12.4 (Journal Citation Reports, Clarivate Analytics, 2023), Small Methods is recognized for its significant impact on the scientific community. The online ISSN for Small Methods is 2366-9608.
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