HyPEI-supported ZnS NC

Materials

ref material size size err size unit size type size comment BET b nanozyme b 10n b unit specific act sa 10n sa unit comment
7894 677 HyPEI-supported ZnS NC 10 nm TEM The high-magnification FE (field-emission)-TEM micrograph in Figure 1a (inset) reveals spherical particles with an average size under 10 nm. The low-magnification TEM micrograph in Figure 1b shows the presence of both ~10 and ~50 nm aggregated particles in a solution of ZnS/HyPEI that was kept at room temperature for 14 days.

Kinetics

ref material enzyme type substrate pH T km km err km 10n km unit vmax vmax err vmax 10n vmax unit kcat kcat err kcat 10n kcat unit kcat/km kcat/km 10n kcat/km unit comment
6572 677 HyPEI-supported ZnS NC 677

Applications

ref material application target method linear range linear ran unit LOD lod unit recovery comment
5607 677 HyPEI-supported ZnS NC The catalyst, however, could be easily adapted to apply broadly to different protoenzymatic systems.

References

ref title DOI material type comment
3863 677 Protoenzymes: The case of hyperbranched polymer-scaffolded ZnS nanocrystals https://doi.org/10.3390/life10080150 Sulfide Herein, we describe such possible protoenzymes: hyperbranched polymer-scaffolded metal-sulfide nanocrystals. Hyperbranched polyethyleneimine (HyPEI) and glycerol citrate polymer-supported ZnS nanocrystals (NCs) are formed in a simple process.