The ion selective membranes with desirable hydrophilicity and charged channel were prepared by incorporation of syn�thesized sodium carboxymethyl cellulose (NaCMC) nanogels. For the aim, the NaCMC polymer was crosslinked by iron chloride (FeCl3) to make hydrogels and then turned to nanogels (NGs). The synthesized NGs were characterized by Fourier transform infrared spectrometer (FT-IR), dynamic light scattering (DLS), and scanning electron microscopic (SEM) analyses. Results exhibited formation of NGs in a good manner, decisively. The fabricated membranes represented desirable electro�chemical performances; the NGs incorporated membranes showed more hydrophilic surface as well as > 50% and > 300% increase in ionic fux and electrical conductivity in sodium chloride ionic solution, respectively. The modifed membranes with promoted charge density resulted in desirable Na+/Mg2+ (mono/bivalent) ion selectivity which enhanced from ~0.63 for pristine membrane up to ~4.36 for the modifed ones. Moreover, NG-entrapped membrane showed responsive electro�chemical characteristics at diferent pH environments ingeniously.
