Ultrathin porous Pd metallene as highly efficient oxidase mimics for the colorimetric detection of chromium (VI)

A colorimetric and electrochemical dual-mode system for identifying and detecting varied Cr species based on fungus-like porous CoS nanosensor

The differentiation of valence states plays a crucial role in determining the toxicity of chromium (Cr) in environmental samples. In this work, two modes of colorimetric and electrochemical analytical methods based on a fungus like porous CoS (FP CoS) nanosensor were developed for rapid, specific, and portable detection trace/ultra-trace chromium species (Cr(VI) and Cr(III)). The FP CoS exhibited peroxidase activity as a nanozyme for the colorimetric detection of Cr(VI), catalyzing the oxidation of 3,3',5,5'-tetramethylbenzidine (TMB) to a blue oxidation product (oxTMB) in the presence of Cr(VI) instead of unstable H2O2 as an oxidizer at room temperature over existing methods. Based on the promotion of colorimetric reaction by increasing in Cr(VI) concentration, an effective colorimetric detection of Cr(VI) method was established with a detection limit (LOD) low to 3.93 μg L-1 and unique selectivity for Cr(VI) over 21 interfering ions (containing 15 metal ions and 6 anions). Innovatively, Cr(VI) could be reduced to Cr(III) without TMB, then selectively enriched by redox reaction with FP CoS. Hence, Cr (III) can be selectively and effectively enriched by FP CoS applying voltage, and then detected using cyclic voltammetry, with a lower LOD of 0.116 μg L-1 and high sensitivity ignoring background interferences. By integrating the dual-mode detection channel, the FP CoS nanosensor offers a convenient and flexible method for simultaneously determining Cr(VI), Cr(III), and total chromium in diverse samples.

Ultrathin porous PdCu metallenezymes as oxidase mimics for colorimetric analysis

Ultrathin porous and highly curved two-dimensional PdCu alloy metallene are shown to be highly efficient oxidase mimics. Serving as intrinsic oxidase mimic, the ultrathin porous structure of the PdCu metallenezymes could effectively utilize all the Pd atoms of the metallenezymes during catalytic reactions. By using the oxidation capability of 3,3'5,5'-tetramethylbenzidine as distinctive chromogenic substrate, the PdCu metallenezymes was used as oxidase-like mimics for determination of total antioxidant capacity (TAC) of vitamin C containing real products including fresh orange juice, commercial beverages, Vitamin C tablets and dermo-cosmetic products. AAP was hydrolyzed using ALP to generate AA and the corresponding ALP activity was successfully detected in the 0-100 U/L range with a lowest detection limit of 0.9 U/L. This study demonstrates the significant catalytic performance and oxidase-like activity of PdCu metallene nanozyme providing a strategy to develop a TAC assay for the assessment of antioxidant food quality as well as oxidative stress in skin and health care products.