Hormozi Jangi, S. R. (2023). Detection Mechanism and Principles of the Multinanozyme Systems as the New Generation of Nanozyme-Mediated Sensing Assays: A Critical Review. Petro Chem Indus Intern, 6(5), 349-357.
Hormozi Jangi, S. R. (2023). Detection Mechanism and Principles of the Multinanozyme Systems as the New Generation of Nanozyme-Mediated Sensing Assays: A Critical Review. Petro Chem Indus Intern, 6(5), 349-357.
Hormozi Jangi, S. R. (2023). Detection Mechanism and Principles of the Multinanozyme Systems as the New Generation of Nanozyme-Mediated Sensing Assays: A Critical Review. Petro Chem Indus Intern, 6(5), 349-357.
Hormozi Jangi, S. R. (2023). Detection Mechanism and Principles of the Multinanozyme Systems as the New Generation of Nanozyme-Mediated Sensing Assays: A Critical Review. Petro Chem Indus Intern, 6(5), 349-357.
Abstract
Considering higher stability and lower cost of nanozymes than native enzymes, the nanozymatic systems had been utilized for several practical application, especially for sensing and detection. Most of common nanozymatic sensors are single-nanozyme based systems, however, recently a new generation of nanozyme-based systems called “multinanozyme system’ was introduced by Hormozi Jangi et al. (2020). Since the first report of multinanozyme systems, several multinaozyme systems have been developed and utilized for highly sensitive and selective sensing aims. The main advantages of multinaozyme systems compared of common nanozymatic sensors are their impact on simultaneous enhancing selectivity and sensitivity of sensor in a well-designed detection process. Since, the principles of design and detection mechanism of this new generation is not well-described in the literature, the aim of this article is the fast review of the principles of design of this new generation of nanozyme-based sensing and detection.
Keywords
nanozymes; multinanozyme system; nanozyme-based sensing and detection
Subject
Chemistry and Materials Science, Analytical Chemistry
Copyright:
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