Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection

Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection Publisher

Sarshar FZ ; Nejatbakhsh MM ; Baharlouei Z ; Mahvashi M ; Sanati A ; Karimzadeh F

Source: Microchemical Journal Published:2025

Abstract

This research addresses the health implications of abnormal uric acid levels, which are linked to various conditions such as cardiovascular disease, acute kidney injury, kidney stones, gout, diabetes, and heart disease. Here, we developed a non-enzymatic, disposable sensor for point-of-care (POC) detection of uric acid, meeting the demand for low-cost and simple materials that offer excellent catalytic performance in real-world conditions. The sensor utilized a novel nano-microstructure of cobalt oxide/MXene, which was fabricated through an economical one-step electrodeposition method. The resulting nano-micro flowers (NMFs)-like structure, confirmed by Field Emission-Scanning Electron Microscopy (FE-SEM), significantly enhanced the reaction interface with uric acid. This morphology provided a high density of active sites, thereby improving catalytic activity and surface electrical potential (as investigated using simulated data from COMSOL Multiphysics software), and achieving an 8.6 times enhanced signal-to-noise ratio. The cobalt oxide NMFs sensor, fabricated in the presence of MXene, exhibited exceptional performance in challenging media, displaying wide linear range of detection between 50 and 1500 μM. Additionally, the sensor maintained stability up to 28 days (RSD = 3.9 %). The sensor proved practical and selective in real applications, such as patient saliva and serum. The results showed a correlation coefficient of up to r = 0.96 with the Mindray BS-430 laboratory device. Also, clinical specificity of 100 % for saliva and 92 % for serum was achieved. Finally, this work represents a substantial advancement in non-enzymatic POC sensors, paving the way for the future development and application of disposable sensors for decentralized small molecule measurements. © 2025 Elsevier B.V., All rights reserved.

Style	Citing Format
MLA	Sarshar FZ, et al.. "Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection." Microchemical Journal, vol. 218, no. , 2025, pp. -.
APA	Sarshar FZ, Nejatbakhsh MM, Baharlouei Z, Mahvashi M, Sanati A, Karimzadeh F (2025). Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection. Microchemical Journal, 218(), -.
Chicago	Sarshar FZ, Nejatbakhsh MM, Baharlouei Z, Mahvashi M, Sanati A, Karimzadeh F. "Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection." Microchemical Journal 218, no. (2025): -.
Harvard	Sarshar FZ et al. (2025) 'Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection', Microchemical Journal, 218(), pp. -.
Vancouver	Sarshar FZ, Nejatbakhsh MM, Baharlouei Z, Mahvashi M, Sanati A, Karimzadeh F. Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection. Microchemical Journal. 2025;218():-.
BibTex	@article{ author = {Sarshar FZ and Nejatbakhsh MM and Baharlouei Z and Mahvashi M and Sanati A and Karimzadeh F}, title = {Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection}, journal = {Microchemical Journal}, volume = {218}, number = {}, pages = {-}, year = {2025} }
RIS	TY - JOUR AU - Sarshar FZ AU - Nejatbakhsh MM AU - Baharlouei Z AU - Mahvashi M AU - Sanati A AU - Karimzadeh F TI - Mxene/Cobalt Oxide Nano-Micro Flower Nanozymesfor Decentralized Uric Acid Detection JO - Microchemical Journal VL - 218 IS - SP - EP - PY - 2025 ER -

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