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Nanozymes for Detection of Metal Ions

Large-scale mining, manufacturing, groundwater extraction, groundwater depletion and uncontrolled discharge of industrial waste have caused severe heavy metal ion pollution of the world's environment. Therefore, rapid detection of such toxic metal ions is imperative. However, it is difficult to operate in field conditions, as conventional detection methods require sophisticated instruments and skilled personnel. Recently, nanozyme-based assays have been found to have the potential to replace traditional methods due to their portability, simplicity and high sensitivity to detect metal ion concentrations.

Heavy metal ion detection systems based on nanozymes enable rapid and inexpensive screening by using simple instruments. Therefore, they are convenient for use in field operations, especially in remote regions of the world. Creative Enzymes offers nanozymes and schemes for the detection of metal ions.

Detection Subjects Nanozymes Mimicking activity Detection Method Tested sample
Ag+ Pt Peroxidase Colorimetric method Tap water
Ag+ Pd Peroxidase Colorimetric method Environmental water
Hg2+ Carbon dots Peroxidase Colorimetric method River water
Pb2+ Au Peroxidase Colorimetric method Lake water
Hg2+ Au Peroxidase Colorimetric method Tap water
K+ Au Peroxidase Colorimetric method Tap water / Urine
Fe2+ MoS2 Peroxidase Colorimetric method Lake water
Fe2+ MoS2 Peroxidase Fluorescence method Lake water

Analysis of Ag+ with Nanozyme

  • Creative Enzymes designs a platinum nanozymes with peroxidase-like activity. A colorimetric sensor for the detection of Ag+ in water was constructed based on the attenuation of the simulated enzyme activity due to the adsorption of Ag+ at its surface-active site and the reduced degree of the H2O2-TMB chromogenic reaction.
  • It has the advantages of high sensitivity, fast response, and strong anti-interference ability, which can meet the needs of Ag detection in tap water.

Schematic illustration of the principle of Pt nanozyme assay for colorimetric detection of Ag+. Fig. 1 Schematic illustration of the principle of Pt nanozyme assay for colorimetric detection of Ag+.

  • We also use amino acids to regulate the peroxidase-like activity of Pd nanozymes. The modified enzyme by amino acids has a smaller size, higher content, and better hydrophilicity, thus its catalytic ability for the H2O2-TMB color reaction is significantly improved. Nanozymes enable accurate and specific determination of Ag+ in water.

Analysis of Hg2+ with Nanozyme

  • Based on the interaction between Hg2+ and cysteine, we develop a colorimetric sensor using carbon dots with peroxidase mimetic enzymes. Cysteine is able to inhibit the production of cationic radicals and prevent the appearance of blue oxidation products of the substrate TMB. However, Hg2+ has a strong affinity for cysteine, which allows the color product blue cations to form normally, and the chromaticity increases with Hg2+ concentration.
  • Hg2+ enhances the peroxidase activity of chitosan-modified Au nanozymes by aggregation-induction. Therefore, we establish a label-free, simple, and rapid visual detection method for Hg2+.

Analysis of Fe2+ with Nanozyme

  • Although Fe2+ is an essential metal ion for human body, its excessive intake will also cause a great threat to human health. Therefore, it is important to establish a fast measurement method for this ion to protect human health.
  • Previous studies have shown that Fe2+ can significantly enhance the activity of MoS2 nanozymes. Based on this synergistic enhancement, we construct label-free colorimetry and fluorescence sensors for Fe2+ determination in water.

Creative Enzymes provides fast-turnaround, high-quality services at competitive prices to customers worldwide. Our advanced technology platform can help our clients solve problems they may encounter in their research based on years of experience. If you are interested in our services or have some questions, please feel free to contact us or make an online inquiry.

Our Products Cannot Be Used As Medicines Directly For Personal Use.