Silica-based fibers with axially aligned mesopores from chitin self-assembly and sol-gel chemistry

Polysaccharide nanorods (chitin, cellulose) can be used as colloidal templates to form silica-based mesoporous materials by combining self-assembly and sol-gel chemistry. Chitin nanorods are chosen here for their self-assembly properties, facile preparation from natural resources, and because of the...

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Published in:Microporous and mesoporous materials 2022-08, Vol.341, p.112057, Article 112057
Main Authors: Alonso, Bruno, Witczak, Nathalie, Vallicari, Cyril, Lecourt-Capdeville, Bastien, Guiraud, Mathis, Vachoud, Laurent, Kostov, Krassimir L., Spirk, Stefan, Trimmel, Gregor, Belamie, Emmanuel
Format: Article
Language:English
Subjects:
Chemical Sciences
Chitin nanorods
Electrospinning
Fibers
Material chemistry
Self-assembly
Sol-gel
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Summary:Polysaccharide nanorods (chitin, cellulose) can be used as colloidal templates to form silica-based mesoporous materials by combining self-assembly and sol-gel chemistry. Chitin nanorods are chosen here for their self-assembly properties, facile preparation from natural resources, and because of the complexing properties of the free amino groups at their surface in view of further functionalization. Electrospinning of ethanolic co-suspensions, containing the chitin nanorods as pore templates, siloxane oligomers as silica precursors and polyvinylpyrrolidone (PVP) as spinning polymer, allows for forming mats of hybrid organic-inorganic fibers with diameters in the 200–300 nm range. The relative proportions of each component can be adjusted to meet specific characteristics (e.g. micro-/mesoporosity ratio). After calcination, the fibers present an open porosity studied by TEM and N2 volumetry. Elongated mesopores (100–200 nm long, 2–4 nm wide) are created by individual chitin monocrystals forming the nanorods. They are highly oriented along the fibers' axes with orientational order parameters P2 > 0.95 for volume chitin contents φchitin* ≥ 0.2. Additional microporosity is provided by the removal of the spinning polymer, PVP. Complementary viscosity measurements on the initial co-suspensions allow discussing the interactions between colloids and their possible impact on the materials’ textures observed. The introduction of a monomeric Ti4+ precursor in the co-suspensions leads to isolated and tetrahedral Ti units, distributed in the calcined porous silica fibers and possibly close to the pores surface. In addition, preliminary investigations on processing the fibers with a Zn xanthate as ZnS precursor leads to carbonized fibers with nanoparticles and a Zn/S molar ratio close to 1. [Display omitted] •Silica-based hybrid nanofibers are obtained by electrospining with chitin nanorods.•Monocrystals are covered individually by silica during processing.•Mesopores texture is highly oriented along the fibers axis owing to self-assembly.•Rheology confirms strong PVP-nanorods interactions favoring aligned orientation.•Electrospun porous silica fibers can be easily functionalized with metal oxides.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2022.112057