604                Polymer-based Nanocomposites for Energy and Environmental Applications


               Reference  [43]  [46]  [47]  [44]  [45]  [48]  [49]  [50]  [51]  [52]  [53]  [54]  [55]  [56]








           ions  mg/g  (qe)                     900–1450,  and  g  1  μmol

           metal  Capacity  106.8  52           1650–1700,  800–1050,  600–1350


           of      195.7,  68.40  –  56,  167.5  16.73  58.82  18.1  192  1149.4  17.36  263.157  671
           removal  ions  (II)  Cu              Pb(II),  Cd(II)




           the  Metals  Cr(VI),  Cr(VI)  Hg(II)  (III),  As  (V)  As  Cr(VI)  Cr(VI)  (II)  Mn  Cu(II),  Hg(II),  Cr(VI)  Cr(VI)  Cr(VI)  Cr(VI)  Ni(II)  Hg(II)

           for
           adsorbents  plasma-  (ICP-OES)  spectrophotometer  plasma  absorption  method  spectrophotometer  ionization  spectrophotometer





           as  Techniques  coupled Inductively  emission  spectroscopy  fluorescence  spectrophotometer  fluorescence  spectrophotometer  Spectrophotometer  test  ICP-OES  coupled Inductively  atomic  spectrophotometer  Colorimetric  Electrospray  absorption  spectrophotometer  fluorescence  spectrophotometer
           nanocomposites  PANI/c-  optical  UV-vis extracellular  Atomic  Atomic  Flame  fabrics  UV-vis  graphene  UV-vis  Atomic mesoporous  Atomic









           Polyaniline-based  Polyaniline/maghemite  Polyaniline/bacterial  nanocomposite polysaccharide  husk Polyaniline-rice  Polyaniline/polystyrene  nanocomposite Polyaniline/montmorillonite  PANI/Fe 3 O 4  nanocomposites  Polyaniline/sawdust Nanosilica-immobilized-  nanopolyaniline  fiber Polyaniline’carbon  functionalized  nanorods-gra










           22.1  Materials  Fe2O3        Magnetic       Polyaniline  sheets  Polyaniline  oxide  silica
           Table  No  S.  1  2  3  4   5  6  7  8     9  10  11  12  13   14