基于纳米酶的纸基比色传感器在即时检测领域的应用研究进展
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杨红梅, 博士, 副教授, 主要从事纸芯片功能纳米材料的设计制备及光电化学生物传感应用研究. 以第一/通讯作者在ACS Nano、Chem. Eng. J.、Anal. Chem.等期刊发表SCI收录论文20余篇; 授权国家发明专利10余项, 主持国家自然科学基金、中国博士后科学基金特别资助、山东省自然科学基金等纵向项目5项, 入选山东省青年科技人才托举工程. |
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张彦, 教授, 博士生导师, 国家“博新计划”人选, 中国青少年科技创新奖获得者, 山东省泰山学者青年专家. 主要从事功能纸芯片与生物传感分析研究工作, 以第一/通讯作者在Adv. Mater.、Nano Energy、Anal. Chem. 等期刊发表学术论文50余篇, 以主要完成人获山东省高等教育教学成果奖一等奖、山东省自然科学奖二等奖、中国分析测试协会科学技术奖二等奖、中国石油和化学工业联合会科技进步奖二等奖各1项, 主持国家自然科学基金、国家博士后创新人才支持计划、泰山学者青年专家计划等省部级以上项目6项. |
收稿日期: 2024-10-25
网络出版日期: 2025-01-13
基金资助
国家自然科学基金(22306070); 国家自然科学基金(21904047); 泰山学者工程(tsqn202103082); 山东省高等学校青年创新团队发展计划(2021KJ021); 中国博士后科学基金(2024T170344); 中国博士后科学基金(2023M731302); 山东省教育系统政府公派出国留学项目资助
Advances in Paper-based Colorimetric Sensors Based on Nanozymes for Point-of-Care Testing
Received date: 2024-10-25
Online published: 2025-01-13
Supported by
National Natural Science Foundation of China(22306070); National Natural Science Foundation of China(21904047); Taishan Scholars Program(tsqn202103082); Excellent Youth Innovation Team in Universities of Shandong(2021KJ021); China Postdoctoral Science Foundation(2024T170344); China Postdoctoral Science Foundation(2023M731302); Fund for Overseas Study from the Education Department of Shandong Province
纳米酶, 因兼具生物酶的良好催化活性和纳米材料结构特性, 展现出稳定性高、活性可调控、环境耐受性好等优点, 正逐渐成为生物酶的有效替代品. 纳米酶优异的催化活性使其广泛应用于比色传感分析, 结合纸基材成本低廉、孔隙率高和易生物降解等特点, 近年来基于纳米酶的纸基比色传感器已成为一种简便有效的即时检测工具. 本文首先阐述了纸基比色传感器的构造与工作原理; 然后, 对纳米酶的类型和催化反应机制进行了详细介绍; 其次, 回顾了基于纳米酶的纸基比色传感器在快速检测领域的主要应用实例, 涵盖了食品安全分析、环境质量监测与生物医学诊断等重点领域; 最后, 探讨了目前基于纳米酶的纸基比色传感器在即时检测应用领域面临的挑战, 并对其未来的发展潜力进行了展望.
周双 , 梅雪娜 , 王少伟 , 杨红梅 , 于京华 , 张彦 . 基于纳米酶的纸基比色传感器在即时检测领域的应用研究进展[J]. 化学学报, 2025 , 83(2) : 170 -183 . DOI: 10.6023/A24100321
Nanozymes, characterized by their combination of the favorable catalytic activity of biological enzymes with the structural properties of nanomaterials, have emerged as effective substitutes for natural enzymes. They exhibit high stability, adjustable activity, and robust environmental tolerance, which makes them as ideal candidates for various applications. The exceptional catalytic properties have facilitated their widespread adoption in colorimetric sensing analysis, particularly when integrated with paper substrates. Paper, renowned for its low cost, high porosity, and biodegradability, serves as an excellent platform for developing simple and effective point-of-care testing (POCT) tools. In this paper, we first delve into the construction and operational principles of paper-based colorimetric sensors. These sensors leverage the unique characteristics of paper to create microfluidic channels and reaction zones, enabling the controlled flow and mixing of analytes with detection reagents. The colorimetric response, resulting from the catalytic reaction between the analyte and the nanozyme-based reagent, serves as the basis for qualitative and quantitative analysis. Subsequently, a comprehensive overview of the types of nanozymes and their catalytic reaction mechanisms is provided. Nanozymes encompass a wide range of materials, including metal oxides, metal sulfides, carbon-based nanomaterials, metal-organic frameworks, and single-atom nanozymes, etc., each exhibiting distinct catalytic properties tailored for specific sensing applications. The catalytic reactions involve the oxidation or reduction of analytes, leading to a color change that can be visually detected or analyzed using a smartphone or spectrophotometer. Furthermore, the significant applications of paper-based colorimetric sensors based on nanozymes for POCT are reviewed, focusing on key areas such as food safety analysis, environmental quality monitoring, and biomedical diagnosis. Despite lots of advantages, paper-based colorimetric sensors based on nanozymes face several challenges in the field of POCT. These include limitations in detection sensitivity, biosecurity, and integration with advanced technologies for real-time data analysis. In conclusion, the field of paper-based colorimetric sensors based on nanozymes for POCT is rapidly evolving. With ongoing research and technological advancements, it is anticipated that these sensors will overcome current challenges and offer even more accurate, rapid, and user-friendly solutions for POCT applications in various fields. Their potential to revolutionize healthcare, food safety, and environmental monitoring is immense, making them a promising area of research for the future.
Key words: point-of-care testing; nanozyme; paper-based; colorimetric; sensing and analysis
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