A paper-based electrochemical sensor is described that is based on the use of thiol-terminated poly(2-methacryloyloxyethyl phosphorylcholine) (PMPC-SH) that was self-assembled on a gold nanoparticle-modified screen-printed electrode (SPE). The SPE sensor was used for label-free detection of C-reactive protein (CRP). Gold nanoparticles (AuNPs) were first electrodeposited on the SPCE, followed by the self-assembly of PMPC-SH on gold. The electrochemical response of the modified SPE to CRP was measured by differential pulse voltammetry (DPV). If the CRP on the paper device is contacted with Ca (II) ions, the current (measured by using hexacyanoferrate as the electrochemical probe) decreases. The signal drops in the 5 to 5000 ng·mL CRP concentration range, and the lower detection limit (at 3 SD/slope) is 1.6 ng·mL. The use of a PMPC-modified surface also reduces the nonspecific adsorption of proteins. The sensor is not interfered by bilirubin, myoglobin and albumin. It was successfully applied to CRP detection in certified human serum. This sensor is applicable as an attractive protocol for an inexpensive, highly sensitive, and disposable material for electrochemical detection of CRP. Graphical abstract Schematic presentation of highly sensitive and disposable paper-based electrochemical sensor using thiol-terminated poly(2-methacryloyloxyethyl phosphorylcholine) in the presence of Ca for the label-free C-reactive protein detection. The current was measured by differential pulse voltammetry.
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Article Synopsis
- Phenols are common industrial pollutants found in sectors like pharmaceuticals and agriculture, often released untreated, necessitating effective detection methods.
- Current detection techniques like spectrophotometry and chromatography are costly and complex, highlighting the need for a simpler, affordable solution.
- This study presents a new method using low-cost colorimetric paper-based sensor strips to detect phenols in water using the Folin-Ciocalteu reagent, achieving high recovery rates with promising detection limits.
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