Synergetic effect in a self-doping polyaniline/TiO2 composite for selective adsorption of heavy metal ions

• Published in: Synthetic metals Vol. 245; pp. 32 - 41
• Main Authors: Chen, Jie, Wang, Ning, Liu, Yunpeng, Zhu, Jinwei, Feng, Jiangtao, Yan, Wei
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.11.2018
• Subjects: Heavy metal ions; Mechanism; PANi(ES+)/TiO2(O-) heterojunction structure; Selective adsorption; Synergistic adsorption; Synergistic adsorption; Heavy metal ions; PANi(ES+)/TiO2(O-) heterojunction structure; Mechanism; Selective adsorption
• ISSN: 0379-6779; 1879-3290
• DOI: 10.1016/j.synthmet.2018.08.006

[Display omitted] •Self-doping of TiO2(O−) on PANi(ES+) occurs in PANi/TiO2 composite.•PANi in doping state is unstable and easy to dedope in non-acid solution.•PANi/TiO2 composite has impressive selective adsorption of Zn2+>Pb2+>>Cu2+.•The selectivity of PANi/TiO2 composite is determined by TiO2.•The selective adsorption was achieved by the synergetic effect between PANi and TiO2. Design and synthesis of adsorbents with high adsorption selectivity are important for the treatment of the wastewater which contains multiple metal ions. Herein, a PANi(ES+)/TiO2(O−) composite is the subject of an investigation into the synergetic effect of a polymer/metal oxide composite and the mechanism of selective adsorption towards heavy metal ions. The self-doping nature of TiO2(O−) to PANi was first discovered through characterizations including FT-IR, zeta potential analysis, TGA, XRD, SEM-EDS, TEM-EDS, N2 adsorption-desorption isotherm and isotherm investigation for Pb (II), Zn (II) and Cu (II) in single/multiple metal ion system, which was confirmed to contribute to the novel selectivity of the PANi/TiO2 composite of Zn2+>Pb2+>>Cu2+ in a multiple metal ion system. The synergistic mechanism between the conjugated polymer and metal oxide for selective adsorption was discussed and proposed subsequently, which was suggested that the metastability of the doped state of PANi (ES+) would result in the dedoping of the TiO2(O−) in a non-acid solution (pH = 5), further leading to the doping of cationic heavy metal ions on TiO2(O−). The mechanism we proposed can satisfactorily explain the selective adsorption properties of the polymer/metal oxide composite system and provide general guidance for designing an adsorbent with expected selective adsorption properties for water treatment.