Resumen
In this study, we have investigated the impact of superparamagnetic magnetite nanoparticle (Fe3O4) inclusion on the chitin polysaccharide structure, together with its surface chemistry influence on the adsorption of lysozyme (LYZ). Magnetic nanoparticles (MNPs) as fillers not only endow the chitin host structure with their physic and chemical properties but also is a straightforward tool to modify or template its porous structure. Indeed, scanning electron microscopy and Brunauer–Emmett–Teller surface area measurements confirm the template effect of the MNPs on chitin. Their incorporation reduced the thickness of the pore wall and increased the surface area from chitin (34.5 m2/g) to the chitin@Fe3O4 composites (210.8 m2/g). MNPs provide the composite system an intrinsic magnetic moment that enables the magnetic recovery of the adsorbent after LYZ uptake. To characterize the magnetic composite’s interaction with LYZ, the effect of pH on the absorptive capacities and kinetic parameters was examined. The results indicated that the nanocomposite presents an adsorption capacity of 488 mg/g of lysozyme at pH 9, being able to recover LYZ without diluting or pretreating the hen egg-white, leading to a 75% global yield and a purity degree >99% in only one chromatographic step. © 2020
Gabriel Tovar
Investigador en formación
Mis investigaciones son sobre biomateriales nanoestructurados para aplicaciones ambientales y biotecnologicas.
Roberto Fernández de Luis
Investigador
Especializado en la funcionalización de estructuras metalorgánicas (MOF) para la mejora de su potencial aplicación como adsorbentes de contaminantes
Federico Wolman
Investigador
Desarrollo integral de procesos de purificación de biomoléculas y de materiales de uso cromatográfico.
Guillermo Copello
Investigador
Dedicado a la síntesis y caracterización de nanocompuestos a base de polímeros naturales para el desarrollo de materiales inteligentes funcionales