Recent advances in polyaniline-based nanocomposites as potential adsorbents for trace metal ions  605

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                                                                         58
                      312.5,                                             124,
                  198

                  56,  312.5,             17.85                          148,  171,
             216.82  84,  114,  285.7,  312.5  515.46  98  199.86  27.17,  229.8  1111.111  86.56  182  164  145  55.55  312,



                  (II),  (VI)  Cu(II),                                   Cu(II),  Cd(II),
                  Ni  Cr   Cr(III)        Zn(II)
             U(VI)  Cu(II),  Cd(II),  Cd(II),  Co(II),  and  Hg(II)  Rb(I)  Co(II)  Cd(II),  (VI)  Cr  Hg(II)  Cr(VI)  Cr(VI)  Cr(VI)  Cr(VI)  Cr(VI)  Pb(II),  Hg(II),  Cr(VI)




             III                          plasma                         plasma
             Dichlorophosphonoazo  spectrophotometer  absorption  Atomic  spectroscopy  absorption  Atomic  spectrometer  UV/vis-721  spectrophotometer  ICP-OES  absorption  Atomic  spectrophotometer  coupled Inductively  emission  atomic  spectroscopy  absorption  Atomic  spectrometer  absorption  Atomic  spectrophotometer  spectrophotometer












                  composite  oxide graphene  blue  copolymer  composites  mesoporous  acid  acid  nanotubes
             Polyaniline/hydrogen-titanate  nanobelt  Polyaniline/palygorskite  thiacalix[4]arene Polyaniline  Polyaniline/reduced  cobalt-Prussian Polyaniline,  (Co-PBA) analogues Polyaniline/polypyrrole  nanofibers  Polyaniline’cobalt  hexacyanoferrate-NC  Polyaniline/chitosan  Polyaniline/hexagonal  ZVI/polyaniline/attapulgite  Polyaniline















             15   16  17     18  19  20   21    22   23  silica  24  25  26  27  28  29