L.A. Can-Herrera scite author profile

The aim of this work is to investigate the effect of the applied voltage on the morphological and mechanical properties of electrospun polycaprolactone (PCL) scaffolds for potential use in tissue engineering. The morphology of the scaffolds was characterized by scanning electron microscopy (SEM), atomic force microscopy (AFM), and the BET techniques for measuring the surface area and pore volume. Stress-strain curves from tensile tests were obtained for estimating the mechanical properties. Additional studies for detecting changes in the chemical structure of the electrospun PCL scaffolds by Fourier transform infrared were performed, while contact angle and X-ray diffraction analysis were realized for determining the wettability and crystallinity, respectively. The SEM, AFM and BET results demonstrate that the electrospun PCL fibers exhibit morphological changes with the applied voltage. By increasing the applied voltage (10 to 25 kV) a significate influence was observed on the fiber diameter, surface roughness, and pore volume. In addition, tensile strength, elongation, and elastic modulus increase with the applied voltage, the crystalline structure of the fibers remains constant, and the surface area and wetting of the scaffolds diminish. The morphological and mechanical properties show a clear correlation with the applied voltage and can be of great relevance for tissue engineering.

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Effect of moisture content and carbon fiber surface treatments on the interfacial shear strength of a thermoplastic-modified epoxy resin composites

Dzul-Cervantes

Pacheco-Salazar

Can-Herrera

et al. 2020

Journal of Materials Research and Technology

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Enhancement of chemical, physical, and surface properties of electrospun PCL/PLA blends by means of air plasma treatment

Can-Herrera

Oliva

Cervantes‐Uc

2022

Polymer Engineering & Sci

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Polycaprolactone (PCL) and poly(lactic acid) (PLA) are polymers with unique individual features, but their mixing can produce a new biodegradable material with well-balanced properties, although with a disadvantage that both are highly hydrophobic materials. To improve this drawback, electrospun PCL/PLA blends with various weight ratios were superficially modified by air plasma. The changes undergone by the nanofibers were characterized using spectroscopic and microscopic techniques; water contact angle (WCA) was also determined. We demonstrated that the electrospun PCL/PLA blends did not suffer morphological changes, although it was observed an increase in the roughness and the O/C ratio (by XPS analysis) and, decrease in WCA values, when the PCL content dominates in the blend after the treatment. The surface characteristics of the scaffolds PCL/PLA blends can be improved after modification with plasma and by tuning the content of its components.

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Identification by molecular techniques of halophilic bacteria producing important enzymes from pristine area in Campeche, Mexico

et al. 2023

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Isla Arena is located in the coordinate 20° 70´ N - 90° 45´ W, from Campeche, Mexico. In these estuaries, the ocean mixes with fresh water, and ecosystems are concentrated where petenes and pink flamingos proliferate. Crustaceans and mollusks abound in the sea. Despite its enormous marine wealth, there are no studies carried out on which halophilic microorganisms are present in these waters. In this work, the diversity and structure of the microbial community was investigated through a metagenomics approach and corroborated for sequencing of 16S rRNA genes. It was found that the phylum Fimicutes predominates with more than 50%, in almost the same proportion of the class Bacilli and with almost 41% of relative abundance of the order Bacillales. The sequencing results showed that one of the samples presented a high percentage of similarity (99.75%) using the Nucleotide BLAST program with a peculiar microorganism: Bacillus subtilis. This microorganism is one of the best characterized bacteria among the gram-positive ones. Our results demonstrate that B. subtilis can be an efficient source of proteases, lipases and cellulases, from halophilic microbial communities located in poorly explored areas.

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L.A. Can-Herrera

Surface modification of electrospun polycaprolactone microfibers by air plasma treatment: Effect of plasma power and treatment time

Morphological and Mechanical Properties of Electrospun Polycaprolactone Scaffolds: Effect of Applied Voltage

Effect of moisture content and carbon fiber surface treatments on the interfacial shear strength of a thermoplastic-modified epoxy resin composites

Enhancement of chemical, physical, and surface properties of electrospun PCL/PLA blends by means of air plasma treatment

Identification by molecular techniques of halophilic bacteria producing important enzymes from pristine area in Campeche, Mexico

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