ClO2-Mediated Oxidation of the TEMPO Radical: Fundamental Considerations of the Catalytic System for the Oxidation of Cellulose Fibers

Giraldo Isaza, Laura; Mortha, Gérard; Marlin, Nathalie; Molton, Florian; Duboc, Carole

doi:10.3390/molecules28186631

Molecules

2023

DOI: 10.3390/molecules28186631

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ClO2-Mediated Oxidation of the TEMPO Radical: Fundamental Considerations of the Catalytic System for the Oxidation of Cellulose Fibers

Laura Giraldo Isaza,

Gérard Mortha,

Nathalie Marlin

et al.

Abstract: The reaction mechanism of ClO2-mediated TEMPO oxidation was investigated by EPR spectroscopy and UV–Vis spectroscopy in the context of an alternative TEMPO sequence for cellulose fiber oxidation. Without the presence of a cellulosic substrate, a reversibility between TEMPO and its oxidation product, TEMPO+, was displayed, with an effect of the pH and reagent molar ratios. The involvement of HOCl and Cl−, formed as byproducts in the oxidation mechanism, was also evidenced. Trapping HOCl partly inhibits the reac… Show more

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2024

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Influence of TEMPO-oxidation on pulp fiber chemistry, morphology and mechanical paper sheet properties

Hillscher,

Höfler,

Gutmann

et al. 2024

Cellulose

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In this contribution, we report on the TEMPO-mediated oxidation of pulp fibers used in the general context of papermaking and for the future design of tailor-made paper in advanced applications. We focus in our studies on properties of TEMPO-oxidized pulp fibers to explain the characteristics of the paper made thereof. 13C solid-state NMR analysis reveals that in particular amorphous regions of the fibers are being chemically oxidized, while at the same time the crystalline regions of the fibers are not significantly affected. Investigation of the fiber morphology before and after oxidation shows that the fiber length is not changed, yet the fibers do exhibit an increase in width if in contact with water, which is attributed to an increase in fiber swelling. In addition, fibrillation decreases due to the oxidative removal of loosely bound fines and fibrils, rendering the surface of the resulting oxidized fibers much smoother in comparison to the original fibers. Finally, we observe that both, dry and wet tensile strengths are also higher for paper made of oxidized fibers, most likely due to cross linkable aldehyde groups formed during oxidation (i.e. hemiacetal bond formation in the sheet during thermal drying). Our results of the oxidation of paper fibers thus offer a systematic study helpful for the design of tailor-made paper useful in several applications where a fiber-modification with fiber-immobilized functional motifs is crucial, such as for example in paper-based microfluidic sensors (µPADs) or lab-on a chip-devices.

show abstract

Influence of TEMPO-oxidation on pulp fiber chemistry, morphology and mechanical paper sheet properties

Hillscher,

Höfler,

Gutmann

et al. 2024

Cellulose

View full text Add to dashboard Cite

show abstract

Metal-free electrocatalytic upcycling of polyethylene terephthalate plastic to C₂ products

Dinda,

Bhavana,

Behera

et al. 2024

Chem. Commun.

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ClO2-Mediated Oxidation of the TEMPO Radical: Fundamental Considerations of the Catalytic System for the Oxidation of Cellulose Fibers

Cited by 2 publications

References 42 publications

Influence of TEMPO-oxidation on pulp fiber chemistry, morphology and mechanical paper sheet properties

Influence of TEMPO-oxidation on pulp fiber chemistry, morphology and mechanical paper sheet properties

Metal-free electrocatalytic upcycling of polyethylene terephthalate plastic to C₂ products

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ClO2-Mediated Oxidation of the TEMPO Radical: Fundamental Considerations of the Catalytic System for the Oxidation of Cellulose Fibers

Cited by 2 publications

References 42 publications

Influence of TEMPO-oxidation on pulp fiber chemistry, morphology and mechanical paper sheet properties

Influence of TEMPO-oxidation on pulp fiber chemistry, morphology and mechanical paper sheet properties

Metal-free electrocatalytic upcycling of polyethylene terephthalate plastic to C2 products

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Product

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Metal-free electrocatalytic upcycling of polyethylene terephthalate plastic to C₂ products