J.M. Sierra scite author profile

This work reports on the synthesis of a series of new sulfonated fluorine-containing aromatic polyamides with increasing degree of sulfonation (DS). The chemical structure of the resulting polymers was confirmed by Fourier transform infrared spectroscopy and proton nuclear magnetic resonance (1 H NMR) which evidenced the presence of amide and sulfonic groups in the proposed concentrations. Afterwards, we carried out a comparative study of heavy metal ion adsorption in membranes based on these aromatic polyamides. The main purpose was to determine the adsorption capacity of the prepared polymer membranes toward Pb 2þ and Hg 2þ in aqueous media at 30 C and pH neutral. The adsorption kinetics was evaluated with the pseudo-first-order and pseudo-second-order models. The adsorption kinetics in all the polyamide membranes followed the pseudo-second-order rate law for both heavy metal ions. It is observed that the adsorption capacities of all the polyamides toward Pb 2þ ions are higher than those of the Hg 2þ ions, and these capacities increase as the DS increases. The equilibrium adsorption amounts, q e , were 11.87 mg/g for Pb 2þ and 5.17 mg/g for Hg 2þ ions for the highest sulfonated polymer.

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Continuous input-current buck-boost DC-DC converter for PEM fuel cell applications

Valdez-Reséndiz

Sánchez

Rosas-Caro

et al. 2017

International Journal of Hydrogen Energy

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Numerical analysis of the effect of different gas feeding modes in a proton exchange membrane fuel cell with serpentine flow-field

Sierra

Moreira

Sebastian

2011

Journal of Power Sources

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J.M. Sierra

3D CFD modeling of a PEM fuel cell stack

Numerical evaluation of a PEM fuel cell with conventional flow fields adapted to tubular plates

Synthesis, characterization, and heavy metal adsorption properties of sulfonated aromatic polyamides

Continuous input-current buck-boost DC-DC converter for PEM fuel cell applications

Numerical analysis of the effect of different gas feeding modes in a proton exchange membrane fuel cell with serpentine flow-field

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