Bimetallic metal organic frameworks-based nanozyme for colorimetry/fluorescence dual-mode uremic toxin detection

IF 8 1区化学 Q1 CHEMISTRY, ANALYTICAL

Sensors and Actuators B: Chemical Pub Date : 2024-10-15 DOI:10.1016/j.snb.2024.136776

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引用次数: 0

Abstract

Chronic kidney disease (CKD) can greatly increase the mortality risk for clinical patients, with a major challenge being the accurate detection of uremic toxins. Metal organic frameworks (MOFs)-based colorimetry/fluorescence dual-mode probe have shown great potential for bio-detection. However, one of the challenges for MOFs-based nanoprobe is to effectively improve the activity of mimetic enzymes for colorimetric assays while maintaining their outstanding luminescence response for fluorescence sensing. Here, we developed a novel bimetallic Zr/Ce-MOFs_, which possesses high catalytic activity and excellent luminescence properties for dual-mode sensing of uremic toxins. The co-existence of Ce and Zr in the MOFs improves the catalytic activity for colorimetric detection of phosphate ions (one type of uremic toxins) and the strong coordinate covalent interaction between phosphate ions and Zr/Ce leads to a significant fluorescence enhancement of the MOFs. Furthermore, we achieved high sensitivity phosphate ions analysis in serum samples. This strategy provides an easy and reliable platform for the detection of uremic toxins in complicated physiological environment.

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基于双金属金属有机框架的纳米酶，用于比色/荧光双模式尿毒症毒素检测

慢性肾脏病（CKD）会大大增加临床患者的死亡风险，而准确检测尿毒症毒素则是一大挑战。基于金属有机框架（MOFs）的比色/荧光双模探针在生物检测方面显示出巨大的潜力。然而，基于 MOFs 的纳米探针面临的挑战之一是如何有效提高比色法中模拟酶的活性，同时保持其在荧光传感中出色的发光响应。在此，我们开发了一种新型双金属 Zr/Ce-MOFs ，它具有高催化活性和优异的发光特性，可用于尿毒症毒素的双模式传感。MOFs中Ce和Zr的共存提高了比色检测磷酸根离子（尿毒症毒素的一种）的催化活性，磷酸根离子与Zr/Ce之间的强配位共价作用使MOFs的荧光显著增强。此外，我们还实现了对血清样品中磷酸盐离子的高灵敏度分析。这一策略为在复杂的生理环境中检测尿毒症毒素提供了一个简便可靠的平台。

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来源期刊

Sensors and Actuators B: Chemical 工程技术-电化学

CiteScore

14.60

自引率

11.90%

发文量

1776

审稿时长

3.2 months

期刊介绍： Sensors & Actuators, B: Chemical is an international journal focused on the research and development of chemical transducers. It covers chemical sensors and biosensors, chemical actuators, and analytical microsystems. The journal is interdisciplinary, aiming to publish original works showcasing substantial advancements beyond the current state of the art in these fields, with practical applicability to solving meaningful analytical problems. Review articles are accepted by invitation from an Editor of the journal.