Ferrocyanide-Surface Ligands to Quantum Dots for Prussian Blue Composites Showing Efficient and Reversible Electrochemical Response

IF 2.9 4区 工程技术 Q2 CHEMISTRY, MULTIDISCIPLINARY Korean Journal of Chemical Engineering Pub Date : 2024-10-21 DOI:10.1007/s11814-024-00302-2
Taeyong Ha, Yunmo Sung, Yongju Kwon, Sukyung Choi, Ho Jin, Sungjee Kim
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Abstract

We employed a novel approach to fabricate quantum dot-in-Prussian blue analogue (QD-in-PBA) composites, encapsulating colloidal QDs into the electrical conducting metal organic framework PBA, which could provide a robust platform for efficient photochemical modulation of photoluminescence (PL) intensity. To achieve this, the surface of the QDs was engineered by attaching ferrocyanide ligands. This surface modification enabled the QDs to be seamlessly and uniformly incorporated into the PBA matrix. The ferrocyanide ligands on the QD surfaces played a pivotal role in initiating the in-situ formation of PBA, facilitated by the introduction of additional ferrocyanide ions and iron (III) ions as the building blocks of PBA. Alternatively applied external voltages to the QD-in-PBA electrode within an electrochemical cell demonstrated the reversible quenching and recovery of the PL intensity of the QDs embedded within the QD-in-PBA composite. Notably, we achieved the on/off modulation ratio over 7, which could be consistently repeated across multiple cycles. In contrast, the control sample, comprising a mixture of QDs and PBA, exhibited poor stability in terms of electrochemical performance, with a reduced modulation degree observed over repeating cycles. This diminished stability can be attributed to the fact that in the control sample, the QDs were merely attached to the surface of the PBA rather than being fully incorporated within the matrix and became redispersed into the electrolyte solution during the electrochemical reactions.

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用于普鲁士蓝复合材料的亚铁氰化铁表面配体与量子点,显示出高效和可逆的电化学响应
我们采用了一种新方法来制造量子点-普鲁士蓝类似物(QD-in-PBA)复合材料,将胶体 QDs 封装到导电金属有机框架 PBA 中,从而为高效光化学调制光致发光(PL)强度提供了一个稳健的平台。为了实现这一目标,我们在 QDs 表面添加了亚铁氰化物配体。这种表面修饰使 QDs 能够无缝、均匀地融入 PBA 基质中。QD 表面的亚铁氰化铁配体在启动 PBA 的原位形成中发挥了关键作用,而引入额外的亚铁氰化铁离子和铁(III)离子作为 PBA 的构建模块则促进了 PBA 的形成。在电化学电池中对 QD-in-PBA 电极施加外部电压的另一种方法表明,嵌入 QD-in-PBA 复合材料中的 QD 的聚光强度可逆淬灭和恢复。值得注意的是,我们实现了超过 7 的开/关调制比,并可在多个周期内持续重复。相比之下,由 QDs 和 PBA 混合组成的对照样品在电化学性能方面表现出较低的稳定性,在重复循环中观察到的调制度有所降低。稳定性降低的原因是,在对照样品中,QDs 只是附着在 PBA 表面,而不是完全融入基质中,并在电化学反应过程中重新分散到电解质溶液中。
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来源期刊
Korean Journal of Chemical Engineering
Korean Journal of Chemical Engineering 工程技术-工程:化工
CiteScore
4.60
自引率
11.10%
发文量
310
审稿时长
4.7 months
期刊介绍: The Korean Journal of Chemical Engineering provides a global forum for the dissemination of research in chemical engineering. The Journal publishes significant research results obtained in the Asia-Pacific region, and simultaneously introduces recent technical progress made in other areas of the world to this region. Submitted research papers must be of potential industrial significance and specifically concerned with chemical engineering. The editors will give preference to papers having a clearly stated practical scope and applicability in the areas of chemical engineering, and to those where new theoretical concepts are supported by new experimental details. The Journal also regularly publishes featured reviews on emerging and industrially important subjects of chemical engineering as well as selected papers presented at international conferences on the subjects.
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