Au@ZrO₂ core‐shell nanoparticles as a surface‐enhanced Raman scattering substrate for organophosphorus compounds detection

Abstract: Organophosphorus (OPs) compounds have received enormous attention due to high neurotoxicity. However, the complex detection environment makes it very difficult to detect the OPs compounds at extremely low‐concentration. Therefore, it is vital to develop a high sensitive analytical method for the detection of low‐concentration OPs compounds at complex environment. Here, we proposed a novel surface‐enhanced Raman scattering (SERS) substrate based on the core‐shell structure Au@ZrO2 for the detection of extremely… Show more

“…Attention has also concerned the phenomena of Raman exhalation. [61][62][63] Here, we present the first combined TEM, UV-visible, Raman, and FTIR analysis of assemblies of core (Co)/shell (Co oxide) NPs dedicated to the characterization of the inorganic shell probed at different scales.…”

“…The attention paid to the identification by vibration—infrared and/or Raman spectroscopy—of the organic phase constituting the assemblies of NPs received considerable attention 30,34,59,60 but does not concern the skin of (metal)/shell (metal oxide) systems. Attention has also concerned the phenomena of Raman exhalation 61–63 . Here, we present the first combined TEM, UV–visible, Raman, and FTIR analysis of assemblies of core (Co)/shell (Co oxide) NPs dedicated to the characterization of the inorganic shell probed at different scales.…”

Multiscale identification of the inorganic shell of core (Co)/shell‐assembled nanoparticles

“…Attention has also concerned the phenomena of Raman exhalation. [61][62][63] Here, we present the first combined TEM, UV-visible, Raman, and FTIR analysis of assemblies of core (Co)/shell (Co oxide) NPs dedicated to the characterization of the inorganic shell probed at different scales.…”

“…The attention paid to the identification by vibration—infrared and/or Raman spectroscopy—of the organic phase constituting the assemblies of NPs received considerable attention 30,34,59,60 but does not concern the skin of (metal)/shell (metal oxide) systems. Attention has also concerned the phenomena of Raman exhalation 61–63 . Here, we present the first combined TEM, UV–visible, Raman, and FTIR analysis of assemblies of core (Co)/shell (Co oxide) NPs dedicated to the characterization of the inorganic shell probed at different scales.…”

Multiscale identification of the inorganic shell of core (Co)/shell‐assembled nanoparticles

Zr-based metalloporphyrin MOF probe for electrochemical detection of parathion-methyl

Electrochemical biosensors based on multifunctional double-enriched MOFs@MOFs derivatives for the detection of malathion