Polyaniline coating on carbon fiber fabrics for improved hexavalent chromium removal

Carbon fabrics (CFs) loaded with 5.0, 10.0, 15.0 and 20.0 wt% polyaniline (PANI) (PANI/CF) prepared by soaking carbon fiber fabrics in 1.0 wt% PANI m-cresol solution have demonstrated superior hexavalent chromium (Cr(vi)) removal performance compared to the as-received CFs. The PANI/CF nanocomposite...

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Veröffentlicht in:	RSC advances 2014-01, Vol.4 (56), p.29855-29865
Hauptverfasser:	Qiu, Bin, Xu, Cuixia, Sun, Dezhi, Wei, Huige, Zhang, Xi, Guo, Jiang, Wang, Qiang, Rutman, Dan, Guo, Zhanhu, Wei, Suying
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Sprache:	eng
Schlagworte:	Activated carbon Adsorbents Carbon fibers Fabrics Hexavalent chromium Magnesium Mathematical models Polyanilines
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creator	Qiu, Bin Xu, Cuixia Sun, Dezhi Wei, Huige Zhang, Xi Guo, Jiang Wang, Qiang Rutman, Dan Guo, Zhanhu Wei, Suying
description	Carbon fabrics (CFs) loaded with 5.0, 10.0, 15.0 and 20.0 wt% polyaniline (PANI) (PANI/CF) prepared by soaking carbon fiber fabrics in 1.0 wt% PANI m-cresol solution have demonstrated superior hexavalent chromium (Cr(vi)) removal performance compared to the as-received CFs. The PANI/CF nanocomposites were noticed to remove Cr(vi) from solutions with an initial Cr(vi) concentration of 1.0 mg L super(-1) within 15 min, which is faster than the conventional active carbon (6 h) and the as-received CFs (>1 h). A better Cr(vi) removal efficiency was observed in the acidic solutions than in the basic solutions. A pseudo-second-order behavior was justified for the PANI/CF with a much higher removal rate (0.06 g mg super(-1) min super(-1)) than the reported similar to 0.03 g mg super(-1) min super(-1) for the active carbon. The adsorption isotherm study demonstrated that the adsorbents follow the Langmuir model with a calculated maximum adsorption capacity of 18.1 mg g super(-1) for the 10.0 wt% PANI/CF. The Cr(vi) removal mechanisms explored by FT-IR and XPS involve the reduction of Cr(vi) to Cr(iii) by PANI. The PANI/CF adsorbents have demonstrated easy recycling capability for up to five cycles with a Cr(vi) removal rate at above 91%.
doi_str_mv	10.1039/C4RA01700E
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The PANI/CF nanocomposites were noticed to remove Cr(vi) from solutions with an initial Cr(vi) concentration of 1.0 mg L super(-1) within 15 min, which is faster than the conventional active carbon (6 h) and the as-received CFs (>1 h). A better Cr(vi) removal efficiency was observed in the acidic solutions than in the basic solutions. A pseudo-second-order behavior was justified for the PANI/CF with a much higher removal rate (0.06 g mg super(-1) min super(-1)) than the reported similar to 0.03 g mg super(-1) min super(-1) for the active carbon. The adsorption isotherm study demonstrated that the adsorbents follow the Langmuir model with a calculated maximum adsorption capacity of 18.1 mg g super(-1) for the 10.0 wt% PANI/CF. The Cr(vi) removal mechanisms explored by FT-IR and XPS involve the reduction of Cr(vi) to Cr(iii) by PANI. The PANI/CF adsorbents have demonstrated easy recycling capability for up to five cycles with a Cr(vi) removal rate at above 91%.</abstract><doi>10.1039/C4RA01700E</doi><tpages>11</tpages></addata></record>
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source	Royal Society Of Chemistry Journals 2008-
subjects	Activated carbon Adsorbents Carbon fibers Fabrics Hexavalent chromium Magnesium Mathematical models Polyanilines
title	Polyaniline coating on carbon fiber fabrics for improved hexavalent chromium removal
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