Adrián García scite author profile

A fluorescent DNA aptamer-magnetic bead sandwich assay was developed to detect listeriolysin O (LLO) protein from pathogenic Listeria bacteria using a peroxidase-linked system, Amplex Ultra Red (AUR; derivatized resazurin) substrate, and a custom-designed handheld fluorometer. The assay is highly sensitive with demonstrated limits of detection (LODs) in the range of 4 to 61 L. monocytogenes cells or the equivalent LLO produced by 4 to 61 cells on average in separate titration trials. Total assay processing and analysis time was approximately 30 mins. The assay has demonstrated the ability to detect 6 species of Listeria as desired by the USDA's Food Safety Inspection Service (FSIS). The portable system was designed to be used primarily with surface swab samples from fomites, but it can also be used to assess enrichment cultures. The minimal time to detect a positive enrichment culture in our hands from an initial 10 cell inoculum in 200 ml of broth has been 8 h post-incubation at 37 °C in shaker flask cultures. An optional automated magnetic bead assay processing and wash device capable of simultaneously processing 6 samples with low and consistent fluorescence background for higher volume central laboratories is also described.

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Optimization of the Zr-loading on siliceous support catalysts leads to a suitable Lewis/Brønsted acid sites ratio to produce high yields to γ-valerolactone from furfural in one-pot

García

Miguel

Ventimiglia

et al. 2022

Fuel

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Zr supported on non-acidic sepiolite for the efficient one-pot transformation of furfural into γ-valerolactone

García

Monti

Ventimiglia

et al. 2023

Biomass and Bioenergy

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Highly Active Co3O4-Based Catalysts for Total Oxidation of Light C1–C3 Alkanes Prepared by a Simple Soft Chemistry Method: Effect of the Heat-Treatment Temperature and Mixture of Alkanes

et al. 2021

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In the present work, a simple soft chemistry method was employed to prepare cobalt mixed oxide (Co3O4) materials, which have shown remarkably high activity in the heterogeneously catalyzed total oxidation of low reactive VOCs such as the light alkanes propane, ethane, and methane. The optimal heat-treatment temperature of the catalysts was shown to depend on the reactivity of the alkane studied. The catalytic activity of the Co3O4 catalysts was found to be as high as that of the most effective catalysts based on noble metals. The physicochemical properties, from either the bulk (using XRD, TPR, TPD-O2, and TEM) or the surface (using XPS), of the catalysts were investigated to correlate the properties with the catalytic performance in the total oxidation of VOCs. The presence of S1 low-coordinated oxygen species at the near surface of the Co3O4-based catalysts appeared to be linked with the higher reducibility of the catalysts and, consequently, with the higher catalytic activity, not only per mass of catalyst but also per surface area (enhanced areal rate). The co-presence of propane and methane in the feed at low reaction temperatures did not negatively affect the propane reactivity. However, the co-presence of propane and methane in the feed at higher reaction temperatures negatively affected the methane reactivity.

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Supported iridium catalysts for the total oxidation of short chain alkanes and their mixtures: Influence of the support

Schick

González-Alfaro

García

et al. 2021

Chemical Engineering Journal

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Adrián García

Development of a Fluorescent Enzyme-Linked DNA Aptamer-Magnetic Bead Sandwich Assay and Portable Fluorometer for Sensitive and Rapid Listeria Detection

Optimization of the Zr-loading on siliceous support catalysts leads to a suitable Lewis/Brønsted acid sites ratio to produce high yields to γ-valerolactone from furfural in one-pot

Zr supported on non-acidic sepiolite for the efficient one-pot transformation of furfural into γ-valerolactone

Highly Active Co3O4-Based Catalysts for Total Oxidation of Light C1–C3 Alkanes Prepared by a Simple Soft Chemistry Method: Effect of the Heat-Treatment Temperature and Mixture of Alkanes

Supported iridium catalysts for the total oxidation of short chain alkanes and their mixtures: Influence of the support

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