Sonochemical construction of hierarchical strontium doped lanthanum trisulfide electrocatalyst: An efficient electrode for highly sensitive detection of ecological pollutant in food and water

“…The results, in terms of limit of detection and linear range, are comparable with the recently published studies. Due to the lack of data about this topic, we can conclude that our results are more or less similar to the results obtained by Stanković et al and Rocaboy-Faquet et al, while Rajiji and coworkers provided a lower LOD and a wider linear range [ 56 , 57 , 58 ]. The repeatability of the method was tested with the five measurements of the two concentrations of sulcotrione, 20 and 80 µM ( Figure 7 C,D).…”

Microspherical Titanium-Phosphorus Double Oxide: Hierarchical Structure Development for Sensing Applications

“…The results, in terms of limit of detection and linear range, are comparable with the recently published studies. Due to the lack of data about this topic, we can conclude that our results are more or less similar to the results obtained by Stanković et al and Rocaboy-Faquet et al, while Rajiji and coworkers provided a lower LOD and a wider linear range [ 56 , 57 , 58 ]. The repeatability of the method was tested with the five measurements of the two concentrations of sulcotrione, 20 and 80 µM ( Figure 7 C,D).…”

Microspherical Titanium-Phosphorus Double Oxide: Hierarchical Structure Development for Sensing Applications

“…Sonochemistry is a chemical and ultrasound system under the working of ultrasonic radiation and its chemical reactions. The ultrasonic method involves breaking down large nanoparticles into smaller ones by subjecting them to rapid heating and cooling rates [ 15 ]. Sonochemical synthesis offers notable benefits, such as its quick quenching rate and operation under ambient conditions, along with the advantages of simplicity, energy efficiency and ultrasound-based synthesis are green technology without toxic chemicals and high temperature.…”

Optimization of Electrochemical Sensitivity in Anticancer Drug Quantification through ZnS@CNS Nanosheets: Synthesis via Accelerated Sonochemical Methodology

“…In comparison to conventional methods, ultrasound irradiation offers several key advantages for the production of nanomaterials [26] , [37] . As a result of this process, reaction times are significantly reduced, particle size can be controlled precisely, energy is conserved, and the process represents an environmentally friendly synthetic pathway [38] , [39] . In contrast to traditional nanomaterial synthesis techniques, high-intensity ultrasound eliminates the need for harsh conditions.…”

Sonochemical synthesis of graphene oxide-Ag2O nanozyme as an oxidize-like mimic for the highly sensitive detection of lithium in blood serum