Archive/Sustainable Textile-Bound Biochar Composites with Peroxidase-like Activity for Dye Decolorization: Proof-of-Concept Study
Sustainable Textile-Bound Biochar Composites with Peroxidase-like Activity for Dye Decolorization: Proof-of-Concept Study
Ivo Šafařík, Jitka Procházková, Viktor Petrenko et al.
July 14, 2026
en

Abstract

Efficient adsorbents and nanozyme-like materials are of growing importance in environmental technologies. Here, we report a simple and potentially scalable approach for the immobilization of biochars onto nonwoven acrylic textiles, yielding composite materials with good retention of immobilized biochar during aqueous treatment and combined adsorption and peroxidase-like activities. The structure of native and biochar-modified textiles was characterized by scanning electron microscopy and small-angle X-ray scattering, confirming the presence of biochar particles on fiber surfaces and within the inter-fiber space, as well as nanoscale structural changes induced by biochar incorporation. Textile-bound biochars exhibited peroxidase-like activity toward N,N-diethyl-p-phenylenediamine in the presence of hydrogen peroxide and enabled effective decolorization of methylene blue. Adsorption alone resulted in 61% dye removal after 240 min, while the combined adsorption-catalytic process achieved 74% decolorization. Modification of the textile-bound biochar with copper ions further enhanced the peroxidase-like activity, increasing dye removal to 85% under identical conditions. The optional incorporation of a magnetic iron wire allows facile magnetic handling of the composite. Owing to its low cost, simplicity of preparation, and dual functionality, the textile-bound biochar composite represents a promising proof-of-concept platform that may warrant further development for dye removal and related environmental applications.

IPC Classification

C07

Keywords

sustainabletextile-boundbiocharcompositesperoxidase-likeactivitydecolorizationproof-of-concepttextilesefficientadsorbentsnanozyme-likematerialsgrowingimportanceenvironmentaltechnologiesherereportsimplepotentiallyscalableapproachimmobilization
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