Nium itanium were usedanode and cathode, respectively. RSM was used to
Nium itanium were usedanode and cathode, respectively. RSM was made use of to conduct electrooxidation and degradation of LVX ode and cathode, respectively. RSM was utilized to conduct electrooxidation and degradamodel wastewater. In the degradation approach, the process, of influence of present dention of LVX model wastewater. Within the degradation influencethe present Scaffold Library MedChemExpress density, initial pH worth, flow price, chloride rate, chloride ion and reaction time reaction time around the TOC sity, initial pH worth, flowion concentration, concentration, andon the TOC removal have been investigated plus the most effective reaction condition was obtained as was obtained as follows: curremoval have been investigated and the greatest reaction situation follows: existing density, initial aqueous pH, flow aqueous pH, flow price, concentration of reaction time were 39.6 A/m2 rent density, initial rate, concentration of chloride ion, and chloride ion, and reaction time, 6.5, 50 mL/min, 4 and 120 min, respectively. The TOC removal could removal could have been 39.6 A/m2, six.five, 50 mL/min, four and 120 min, respectively. The TOCreach 41 following reaction time 120 min, time 120 min, which consistent using the result predicted by the attain 41 just after reaction which was generally was fundamentally consistent with the outcome preresponse the response surface (40.84 ). dicted by surface (40.84 ). The morphology and properties the electrode were analyzed utilizing tactics such The morphology and properties ofof the electrode have been analyzed using strategies as SEM,SEM, XRD, and AFM, which showed that thethat the titanium suboxide electrode such as XRD, EDS, EDS, and AFM, which showed titanium suboxide electrode has higher stability stability and is actually a promising material. has higher and is often a promising electrodeelectrode material. Further, the bench-scale electrooxidation gear was changed into onboard-scale Further, the bench-scale electrooxidation equipment was changed into onboard-scale electrooxidation equipment, and its application was Moveltipril In stock promoted in many hospitals in electrooxidation equipment, and its application was promoted in numerous hospitals in DaDalian. The results show that the removal price of titanium suboxide for sulfamethoxazole, lian. The outcomes show that the removal price of titanium suboxide for sulfamethoxazole, azithromycin, and LVX reached 100 , plus the total removal price of all antibiotics reached azithromycin, and LVX reached one hundred , plus the total removal rate of all antibiotics reached 94.5 , indicating that the titanium suboxide electrode has terrific improvement prospective. 94.5 , indicating that the titanium suboxide electrode has great improvement prospective.Supplementary Supplies: The following are readily available on line at www.mdpi.com/xxx/s1, Figure S1: XRD spectra before and just after electrooxidation reaction Figure S1. XRD spectra prior to and soon after electrooxidation reaction Figure S2: EDS spectrum on the titanium suboxide electrode just before (a), (b), (c) and immediately after (d), (e), (f) the electrooxidation reaction. Figure S3: Titanium Suboxide Electrode (a) cyclic voltammetry (CV) curve of titanium suboxide electrode in 100ppm levofloxacin, 1mol/L Na2SOMaterials 2021, 14,16 ofSupplementary Materials: The following are accessible on the internet at https://www.mdpi.com/article/ ten.3390/ma14226814/s1, Figure S1: XRD spectra before and following electrooxidation reaction Figure S1. XRD spectra just before and soon after electrooxidation reaction Figure S2: EDS spectrum on the titanium suboxide electrode just before (a ) and just after (d ) the electrooxidati.