Ángela M. Gutiérrez scite author profile

Abstract The constant growth in population worldwide over the past decades continues to put forward the need to provide access to safe, clean water to meet human needs. There is a need for cost-effective technologies for water and wastewater treatment that can meet the global demands and the rigorous water quality standards and at the same maximizing pollutant efficiency removal. Current remediation technologies have failed in keeping up with these factors without becoming cost-prohibitive. Most recently, nanotechnology has been sought as the best alternative to increase access to water supplies by remediating those already contaminated and offering ways to access unconventional sources. The use of iron oxide magnetic nanoparticles as nanoadsorbents has led way to a new class of magnetic separation strategies for water treatment. This review focuses on highlighting some of the most recent advances in core-shell iron oxide magnetic nanoparticles and nanocomposites containing iron oxide nanoparticles currently being developed for water and wastewater treatment of organic pollutants. We discuss the novelty of these novel materials and the insight gained from their advances that can help develop cost-effective reusable technologies for scale-up and commercial use.

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Computational analysis of the fructosyltransferase enzymes in plants, fungi and bacteria

Alméciga-Díaz

Gutiérrez

Bahamon

et al. 2011

Gene

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Curcumin Acrylation for Biological and Environmental Applications

et al. 2017

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Curcumin has recently gained interest for use in drug delivery, chemical sensing, and environmental applications. As a result, the development of synthesis strategies for the incorporation of curcumin into novel materials has become a priority. One such strategy, curcumin acrylation, involves the introduction of acrylate functional groups to the curcumin scaffold, with the potential generation of mono-, di-, and triacrylate curcumin species. The relative populations of these species in the resulting multiacrylate mixture can be controlled by the ratio of curcumin to acryloyl chloride in the initial reaction formulation. Characterization of the acrylation reaction and the resulting curcumin multiacrylate (CMA) product is essential for the effective preparation of new curcumin-containing materials. In this work, a synthesis method for curcumin acrylation is presented and the resulting curcumin multiacrylate product is characterized via various techniques, i.e. HPLC, LCMS, and NMR, as a basis to establish the relationship between synthesis conditions and the extent of acrylation that is achieved.

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High Prevalence of Abnormal Ocular Surface Tests in a Healthy Pediatric Population

Rojas-Carabali¹,

Uribe-Reina²,

Muñoz-Ortíz³

et al. 2020

OPTH

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Synthesis of magnetic nanocomposite microparticles for binding of chlorinated organics in contaminated water sources

Gutiérrez

Bhandari

Weng

et al. 2020

J of Applied Polymer Sci

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In this work, the development of novel magnetic nanocomposite microparticles (MNMs) via free radical polymerization for their application in the remediation of contaminated water is presented. Acrylated plant-based polyphenols, curcumin multiacrylate (CMA) and quercetin multiacrylate (QMA), were incorporated as functional monomers to create high affinity binding sites for the capture of polychlorinated biphenyls (PCBs), as a model pollutant. The MNMs were characterized by Fourier transform infrared spectroscopy, thermogravimetric analysis, scanning electron microscopy, dynamic light scattering, and UV-visible spectroscopy. The affinity of these novel materials for PCB 126 was evaluated and fitted to the nonlinear Langmuir model to determine binding affinities (K D ). The results suggest the presence of the polyphenolic moieties enhances the binding affinity for PCB 126, with K D values comparable to that of antibodies. This demonstrates that these nanocomposite materials have promising potential as environmental remediation adsorbents for harmful contaminants.

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