CONICET | Buscador de Institutos y Recursos Humanos

Cerium oxide-based materials with original textures have been obtained by using a polypeptide molecule: poly-c-benzyl-L-glutamate (PBLG) as a template. Different types of inorganic precursors (cerium alkoxides or organically functionalised CeO2 nanoparticles) were used to modify the different interactions with the polypeptide template. Homogeneous macrotextures shaped with coral-like, helical or macroporous sieve morphologies are obtained. These latter, macroporous CeO2-based materials that keep the properties linked with the crystallinity of the particles can be produced both as gels and thin films with pores aligned perpendicularly to the surface.c-benzyl-L-glutamate (PBLG) as a template. Different types of inorganic precursors (cerium alkoxides or organically functionalised CeO2 nanoparticles) were used to modify the different interactions with the polypeptide template. Homogeneous macrotextures shaped with coral-like, helical or macroporous sieve morphologies are obtained. These latter, macroporous CeO2-based materials that keep the properties linked with the crystallinity of the particles can be produced both as gels and thin films with pores aligned perpendicularly to the surface.2 nanoparticles) were used to modify the different interactions with the polypeptide template. Homogeneous macrotextures shaped with coral-like, helical or macroporous sieve morphologies are obtained. These latter, macroporous CeO2-based materials that keep the properties linked with the crystallinity of the particles can be produced both as gels and thin films with pores aligned perpendicularly to the surface.2-based materials that keep the properties linked with the crystallinity of the particles can be produced both as gels and thin films with pores aligned perpendicularly to the surface.

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