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Abstract
Lignin-rich wood nanofibers (WNFs) were investigated as adsorbents for heavy metals. Lignin-free cellulose nanofibers (CNFs) produced from bleached cellulose fibers were used as a reference. Two raw materials were used to produce WNFs: groundwood pulp as industrially produced wood fibers and sawdust as an abundantly available low-value industrial side stream. WNFs and reference CNFs were produced using a reactive deep eutectic solvent to obtain nanofibers with abundant sulfate groups on their surfaces. With a similar amount of sulfate groups, WNFs had a higher adsorbent performance compared to CNFs and, at low metal concentrations (0.24 mmol/l), the removal of both metals was almost quantitate with WNFs. However, it was noted that, at pHs 4 and 5, the sodium present in the buffer solution interfered with the adsorption, leading to lower adsorption capacities compared to the capacity at pH 3. In addition, in the case of lead, the adsorption capacity dramatically decreased at a high metal concertation, indicating that a high lead concentration results in the saturation of adsorption sites of sulfated nanofibers, leading to a decreased adsorption capacity. Nevertheless, it was observed that WNFs had a higher tolerance to high metal concentrations than CNFs.
Highlights
Pollution of land and water resources is one of the most prominent threats to humans, animals, and the ecosystem as whole
All the sulfated fibers had a high anionic sulfate group content and were disintegrated into nanosized fibers using two passes through the microfluidizer (the characterizations of sulfated wood nanofibers (SWNFs) and cellulose nanofibers (CNFs) are presented in previous publications (Sirviö et al, 2019; Sirviö and Visanko, 2019))
Some irregularly shaped lignin- and hemicellulosebased nanoparticles were present in the SWNF and sulfated sawdust nanofibers (SSDNFs)
Summary
Pollution of land and water resources is one of the most prominent threats to humans, animals, and the ecosystem as whole. Many toxic chemicals already exist in nature, they are widely spread via human activity. Many heavy metals already exist in natural processes and are essential for most organisms, they generally have a very low toxic threshold, indicating that only a small excess can lead to a severe hazard (Jaishankar et al, 2014). There exist strict limitations for the presence of heavy metals, for example, in drinking and industrial wastewaters (Ab Razak et al, 2015). To meet these limitations, many methods for the purification of heavy metal–containing waters have been investigated. Adsorption has been widely investigated due to the easy operations, wide availability of different adsorbents, and reusability (Burakov et al, 2018; Yu et al, 2018a)
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