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Foaming and cross-linking of cellulose fibers using phytic acid

Eliott Orzan, Aitor Barrio, Veronika Biegler, Jana B. Schaubeder, Alexander Bismarck, Stefan Spirk, Tiina Nypelö

2024Carbohydrate Polymers29 citationsDOIOpen Access PDF

Abstract

Bio-based compounds have become the focus in the development of next-generation materials. The polyphosphated structure and availability of phytic acid has sparked an interest to understand its properties and apply it to making fire-retardant fabrics. However, its degradative effect on natural fibers sets limitations to its potential uses. In this study, we unveiled a new dimension to explore with phytic acid: cellulose fiber foams. Phytic acid enabled synergistic foaming with carboxymethyl cellulose albeit causing issues in long-term wet foam stability. Adding cellulose fibers to this mixture and drying at 160 °C produced solid foams with increased compressive strength and stiffness; comparable to foams cross-linked with the commonly used citric acid. The reduced contact area in low-density fiber networks allowed the cross-linking between phytic acid and the fiber network to mitigate structural weakening due to fiber degradation. Imaging also revealed the formation of a film encompassing fiber bonds; attributed to the strong interaction between phytic acid and carboxymethyl cellulose. Furthermore, phytic acid imparted self-extinguishing fire-retardant properties to the cellulose fiber foams measured using thermogravimetric analysis and cone calorimetry. This work showcases a simple new application for phytic acid without the use of catalysts or solvents. It serves to encourage further development of green practices to continuously challenge the industrial landscape. • Wet foaming of sodium dodecyl sulfate and carboxymethyl cellulose was improved with addition of phytic acid. • Cellulose fiber foams reacted with phytic acid exhibited increased stiffness and similar strength to citric acid cross-linked fiber foams. • Phytic acid induced lower heat release and smoke production in solid cellulose fiber foams from self-extinguishing char layer.

Topics & Concepts

Phytic acidCelluloseFiberCellulose fiberFire retardantCarboxymethyl celluloseThermogravimetric analysisMaterials scienceCitric acidDegradation (telecommunications)Thermal stabilityChemical engineeringComposite materialChemistryOrganic chemistryBiochemistrySodiumTelecommunicationsComputer scienceEngineeringMetallurgyAdvanced Cellulose Research Studiesbiodegradable polymer synthesis and propertiesPickering emulsions and particle stabilization
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