Wrinkled MXene-modified screen-printed electrodes for highly efficient sarcosine detection

MXenes are gaining immense attention owing to their robust conductivity, presence of favorable surface-functional groups and excellent hydrophilicity. Herein, a simple solution-based approach was adopted to functionalize few-layer thick MXene-Ti₃C₂Tₓ with chitosan (Chi) molecules, creating a stable...

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Veröffentlicht in:	Biochemical engineering journal 2024-02, Vol.202, p.109151, Article 109151
Hauptverfasser:	Karakuş, Selcan, Tumrani, Sadam Hussain, Kahyaoğlu, İbrahim Mizan, Soomro, Razium Ali, Sirajuddin, Alshammari, Riyadh H., Al-Kahtani, Abdullah A., Nafady, Ayman
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Sprache:	eng
Schlagworte:	ascorbic acid biomarkers biosensors chitosan detection limit electrodes glucose hydrophilicity oxidation oxidoreductases prostatic neoplasms sarcosines species uric acid urine
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container_title	Biochemical engineering journal
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creator	Karakuş, Selcan Tumrani, Sadam Hussain Kahyaoğlu, İbrahim Mizan Soomro, Razium Ali Sirajuddin Alshammari, Riyadh H. Al-Kahtani, Abdullah A. Nafady, Ayman
description	MXenes are gaining immense attention owing to their robust conductivity, presence of favorable surface-functional groups and excellent hydrophilicity. Herein, a simple solution-based approach was adopted to functionalize few-layer thick MXene-Ti₃C₂Tₓ with chitosan (Chi) molecules, creating a stable electro-active screen-printed electrode (SPE) platform for the detection of sarcosine (SAR), a new biomarker for prostate cancer. In comparison to pristine MXene, the chitosan-functionalized Ti₃C₂Tₓ (MX-Chi/SPE) offered favorable surface functionalization for easy immobilization of sarcosine oxidase (SOₓ) enzymes, which led to the improved enzymatic oxidation of SAR. The detection mechanism relied upon the efficient reduction of enzymatically produced H₂O₂ over MX-Chi/SPE, enabling selective detection of SAR both in low (0.1 to 0.3µM) and high (1.5 to 3.5µM) concentration ranges, with an estimated limit of detection (LOD) values of 0.012µM and 0.14µM (S/N = 3), respectively. Due to its robust enzymatic configuration, the biosensor enabled selective detection of SAR even in the presence of interfering species like ascorbic acid, uric acid, and glucose. Furthermore, the biosensor demonstrated excellent signal repeatability and stability and effectively recovered spiked SAR levels (98-106%) from artificial urine samples. This approach demonstrated the successful integration of MXenes as redox-active materials in clinical biosensors with a simple electrode preparation procedure, which has the potential to be extended to other MXene compositions.
doi_str_mv	10.1016/j.bej.2023.109151
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Herein, a simple solution-based approach was adopted to functionalize few-layer thick MXene-Ti₃C₂Tₓ with chitosan (Chi) molecules, creating a stable electro-active screen-printed electrode (SPE) platform for the detection of sarcosine (SAR), a new biomarker for prostate cancer. In comparison to pristine MXene, the chitosan-functionalized Ti₃C₂Tₓ (MX-Chi/SPE) offered favorable surface functionalization for easy immobilization of sarcosine oxidase (SOₓ) enzymes, which led to the improved enzymatic oxidation of SAR. The detection mechanism relied upon the efficient reduction of enzymatically produced H₂O₂ over MX-Chi/SPE, enabling selective detection of SAR both in low (0.1 to 0.3µM) and high (1.5 to 3.5µM) concentration ranges, with an estimated limit of detection (LOD) values of 0.012µM and 0.14µM (S/N = 3), respectively. 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Herein, a simple solution-based approach was adopted to functionalize few-layer thick MXene-Ti₃C₂Tₓ with chitosan (Chi) molecules, creating a stable electro-active screen-printed electrode (SPE) platform for the detection of sarcosine (SAR), a new biomarker for prostate cancer. In comparison to pristine MXene, the chitosan-functionalized Ti₃C₂Tₓ (MX-Chi/SPE) offered favorable surface functionalization for easy immobilization of sarcosine oxidase (SOₓ) enzymes, which led to the improved enzymatic oxidation of SAR. The detection mechanism relied upon the efficient reduction of enzymatically produced H₂O₂ over MX-Chi/SPE, enabling selective detection of SAR both in low (0.1 to 0.3µM) and high (1.5 to 3.5µM) concentration ranges, with an estimated limit of detection (LOD) values of 0.012µM and 0.14µM (S/N = 3), respectively. Due to its robust enzymatic configuration, the biosensor enabled selective detection of SAR even in the presence of interfering species like ascorbic acid, uric acid, and glucose. Furthermore, the biosensor demonstrated excellent signal repeatability and stability and effectively recovered spiked SAR levels (98-106%) from artificial urine samples. This approach demonstrated the successful integration of MXenes as redox-active materials in clinical biosensors with a simple electrode preparation procedure, which has the potential to be extended to other MXene compositions.</abstract><doi>10.1016/j.bej.2023.109151</doi></addata></record>
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subjects	ascorbic acid biomarkers biosensors chitosan detection limit electrodes glucose hydrophilicity oxidation oxidoreductases prostatic neoplasms sarcosines species uric acid urine
title	Wrinkled MXene-modified screen-printed electrodes for highly efficient sarcosine detection
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