Alejandra Espinosa-Dzib scite author profile

We report on enzymatically degradable nanothin coatings obtained by layer-by-layer (LbL) assembly of silk fibroin with poly(N-vinylcaprolactam) (PVCL) via hydrogen bonding and hydrophobic interactions. We found that both silk β-sheet content, controlled through dipping and spin-assisted LbL, and PVCL molecular weight regulate film thickness, microstructure, pH-stability, and biodegradability with a nanoscale precision. Thickness of (silk/PVCL) films increased with increase in PVCL molecular weight and decrease in deposition pH. The impact of assembly pH on film growth was more dramatic for dipped films. These systems show a significant rise in thickness with increase in PVCL molecular weight at pH < 5 but become independent on polymer chain length at pH ≥ 5. We also found that spin-assisted films exhibited a greater stability at elevated pH and against enzymatic degradation as compared to their dipped counterparts. For both film types, the pH and enzymatic stability was improved with increasing PVCL length and β-sheet content, indicating enhanced hydrophobic and hydrogen-bonded interactions between PVCL and silk. Finally, we fabricated spherical and cubical (silk/PVCL) LbL capsules of regulated permeability and enzymatic degradation. Our approach gives a unique opportunity to tune thickness, morphology, structure, and biodegradability rate of silk films and capsules by varying silk secondary structure and PVCL length. Accounting for all-aqueous fabrication and the biocompatibility of both polymers these biodegradable materials provide novel platforms for delivery systems and medical devices.

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Viscoelastic behavior and microstructure of aqueous mixtures of cross-linked waxy maize starch, whey protein isolate and κ-carrageenan

Espinosa-Dzib

Ramírez-Gilly

Tecante

2012

Food Hydrocolloids

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Development of hemp fiber composites with recycled high density polyethylene grocery bags

Angulo

Brahma

Espinosa-Dzib

et al. 2021

Env Prog and Sustain Energy

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This research focuses on the development of an environmentally friendly composite directly from recycled high density polyethylene (rHDPE) grocery bags without changing their film form. Untreated and alkali-treated hemp fibers are used as reinforcement for a composite with recycled High Density Polyethylene (rHDPE) and a combination of rHDPE and virgin HDPE (vHDPE). Grocery bags and hemp fibers are characterized using Fourier transform infrared spectroscopy (FTIR), Differential Scanning Calorimetry (DSC), and thermogravimetric analysis (TGA). Fiber preforms are produced using a hydro-entanglement method and compression molded with HDPE and/or rHDPE at weight fractions of 30, 40, and 50%. The hemp fiber HDPE composites are characterized and tested for their tension and flexure performance. The results show an improvement in mechanical properties when using treated fibers as well as the addition of vHDPE to the polymer matrix. The highest tensile and flexural

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Gelation of Poly(Vinylidene Fluoride) Solutions in Native and Organically Modified Silica Nanopores

Espinosa-Dzib

Vyazovkin

2018

Molecules

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The purpose of this study is to highlight the surface and size effects of the nanopores on the thermodynamics and kinetics of gelation. The effects have been probed by applying differential scanning calorimetry to poly(vinylidene fluoride) solutions in tetraethylene glycol dimethyl ether (tetraglyme) and γ-butyrolactone. Nanoconfinement has been accomplished by introducing gels into native and organically modified silica nanopores (4–30 nm). Nanoconfinement has produced two major effects. First, the heat of gelation has decreased three to four times compared to that for the bulk systems. Second, the temperature of gelation has increased by ~40 °C (tetraglyme based systems) and ~70 °C (γ-butyrolactone based systems), the increase being stronger in native nanopores. The effects are discussed in terms of acceleration of gelation due to heterogeneous nucleation at the confining surface, and retardation of gelation due to constricted polymer chain mobility in the middle of the pore volume. Calorimetric data have been subjected to isoconversional kinetics analysis. The obtained temperature dependencies of the activation energies of gelation have been interpreted in the frameworks of the nucleation model of Turnbull and Fisher. The results suggest that nanoconfinement leads to a lowering of both the free energy of nucleation and activation energy of diffusion.

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Nanoconfined gelation of polyacrylonitrile, poly(vinyl alcohol), and isotactic polypropylene probed by calorimetry

Espinosa-Dzib

Vyazovkin

2020

Soft Matter

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