Separated (L) and phases afteror Pt2 (proper) liquid 12. ESI-HRMS spectra N
Separated (L) and phases afteror Pt2 (suitable) liquid 12. ESI-HRMS spectra N,N’-bis(GNF6702 custom synthesis salicylidene)ethylenediamine organic Pd2 (left) liquid2 liquid respectively. Unassigned minor signals correspond to ions and Pd2 (left)to this(suitable) (e.g., ions, extraction containing N,N’-bis(salicylidene)ethylenediamine (L) not relevant or Pt study ions, respectively. Unassigned minor signals correspond to ions not relevant to this study (e.g., formed by solvent molecules). formed by solvent molecules).4. Summary The outcomes show that N,N’-bis(salicylidene)ethylenediamine can be utilized as an effective extractant/carrier in recovering noble metal ions from aqueous solutions making use of separation processes for instance solvent or membrane extraction. For scientists involved in re-Membranes 2021, 11,Figure 12. ESI-HRMS spectra recorded for the samples of the separated organic phases after liquidFigure 12. ESI-HRMS spectra recorded for the samples from the separated organic (left) soon after (proper) liquid extraction containing N,N’-bis(salicylidene)ethylenediamine (L) and Pd2phasesor Pt2liquid17 of 22 liquid extraction containing N,N’-bis(salicylidene)ethylenediamine (L) and Pd (left) study (e.g., ions, respectively. Unassigned minor signals correspond to ions not relevant2to thisor Pt2(ideal) ions, respectively. Unassigned formed by solvent molecules). minor signals correspond to ions not relevant to this study (e.g., formed by solvent molecules).4. Summary four. Summary 4. Summary The results show that N,N’-bis(salicylidene)ethylenediamine may be used as an effecThe final results show that N,N’-bis(salicylidene)ethylenediamine is usually made use of as an effecThe benefits show that N,N’-bis(salicylidene)ethylenediamine Moveltipril MedChemExpress options as an efficient extractant/carrier in recovering noble metal ions from aqueouscan be usedusing sepametal ions from aqueoussolutions employing separative extractant/carrier in recovering noble tive extractant/carrier as solvent or membrane ions from For scientists involved separation processes such in recovering noble metalextraction. aqueous options usingin retion processes like solvent or membrane extraction. For scientists involved in study ration processes including solvent or membrane extraction. For involved in investigation around the applicationextraction and membrane processes for scientistsnoble metal ion around the application with the from the extraction and membrane processes for noble metal ion recovery, search around the application in the an effective extractant/carrier using a for noble metal ion processes higher recovery, aimmain discover anto come across extraction and membrane a higher recovery recovery rate, the primary the will be to aim is helpful extractant/carrier with price, that is recovery, the principle aim towards the environment. extractant/carrier the a higher recovery price, which can be not unsafe will be to discover an efficient Table six compares withefficiency of chosen not dangerous to the atmosphere. Table six compares the efficiency of selected carriers utilized which utilized hazardous to atmosphere. the efficiency of selected carriersis not to recoverionsthemetal ions withTable 6 comparesN,N’-bis(salicylidene)ethto recover noble metal noble using the efficiencythe N,N’-bis(salicylidene)ethylenediamine of efficiency of carriers made use of to recover noble metal ions with all the efficiency of N,N’-bis(salicylidene)ethylenediamine utilized in this study. made use of in this study. ylenediamine employed within this study.Table 6. Selected extractants/carriers utilized in the separation processes (SE, PM) for the recovery of Table 6. S.