Sargassum natans I Algae: An Alternative for a Greener Approach for the Synthesis of ZnO Nanostructures with Biological and Environmental Applications

López-Miranda, J. Luis; Mares-Briones, F.; Molina, Gustavo A.; González-Reyna, Marlen Alexis; Velázquez-Hernández, Isaac; España‐Sánchez, Beatriz Liliana; Silva, Rodolfo; Esparza, Rodrigo; Estévez, Miriam

doi:10.3390/md21050297

Cited by 10 publications

(2 citation statements)

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“…Sodium alginate was extracted from S. natans as previously reported by us (Mohammed et al 2018a, Mohammed et al 2020a. Briefly, S. natans was continuously washed to remove debris, salt and sand.…”

Section: Alginate Extraction From S Natansmentioning

confidence: 99%

“…Within the past 12 years, the Caribbean and Latin America has seen massive onslaughts of Sargassum natans (brown seaweed) onto its shores, negatively impacting marine ecosystems resulting in a decrease in economic activities (Milledge &Harvey 2016). However, this waste seaweed has been shown to be an effective supply chain for sodium alginate production (Mohammed et al 2018b, Mohammed et al 2020a and as such, offers a plethora of uses (López-Miranda et al 2023, Mohammed et al 2023a, Mohammed et al 2023b, Mohammed et al 2019. However, in comparison to alginates produced from commercial seaweed sources such as Laminaria, Sargassum -derived alginate is of a low yield and quality in terms of purity (Mohammed et al 2020a) and as such is better suited for use in remediation of heavy metals as opposed to food and pharmaceutical value chains.…”

Section: Introductionmentioning

confidence: 99%

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On the Performance of Sargassum derived Calcium Alginate Ion Exchange Resins for Pb2+ Adsorption: Batch and Packed Bed Applications

Mohammed,

Mautner

et al. 2023

Preprint

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Driven by climate change and human activity, Sargassum blooming rates have intensified, producing copious amount of the invasive, pelagic seaweed across the Caribbean and Latin America. Our study details a comprehensive investigation into the use of Sargassum (S. natans), as a potential resource-circular feedstock for the synthesis of calcium alginate beads utilized in heavy metal adsorption, both in batch and column experiments. Given the low quality of alginates extracted from Sargassum which produce poor morphological beads, composite beads in conjunction with graphene oxide and acrylamide were used to improve fabrication. Results from batch experiments showed that compared to composite as well as commercial resins (Amberlite), stand-alone calcium alginate beads outperformed all other adsorbents, with an adsorption capacity of 2123 mg Pb2+ g− 1 tested at 20°C and a pH of 3.5. Furthermore, its performance was within the range for other seaweed and polysaccharide based adsorbents, thus indicating its efficacy as a bio-based alternative to synthetic resins. For composite alginate resins, incorporation of additives such as acrylamide and graphene oxide, resulted in a 21–40% reduction in Pb2+ adsorption – with characterisation revealing a reduction in active sites as the main indicator to inferior performance. Analysis of column operations confirms the practicality of Alginate systems over commercial counterparts, with 20–24% longer operating times, 15 times lower adsorbent mass on scale up and 206% smaller column diameters. Ultimately, our results provide evidence supporting the use of Sargassum as a resource-circular feedstock for the fabrication of Alginate ion-exchange beads, with superior heavy metal adsorption performance.

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Section: Alginate Extraction From S Natansmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

On the Performance of Sargassum derived Calcium Alginate Ion Exchange Resins for Pb2+ Adsorption: Batch and Packed Bed Applications

Mohammed,

Mautner

et al. 2023

Preprint

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On the performance of Sargassum-derived calcium alginate ion exchange resins for Pb2+ adsorption: batch and packed bed applications

Mohammed,

Mautner

et al. 2024

Environ Sci Pollut Res

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Driven by climate change and human activity, Sargassum blooming rates have intensified, producing copious amount of the invasive, pelagic seaweed across the Caribbean and Latin America. Battery recycling and lead-smelter wastes have heavily polluted the environment and resulted in acute lead poisoning in children through widespread heavy metal contamination particular in East Trinidad. Our study details a comprehensive investigation into the use of Sargassum (S. natans), as a potential resource-circular feedstock for the synthesis of calcium alginate beads utilized in heavy metal adsorption, both in batch and column experiments. Here, ionic cross-linking of extracted sodium alginate with calcium chloride was utilized to create functional ion-exchange beads. Given the low quality of alginates extracted from Sargassum which produce poor morphological beads, composite beads in conjunction with graphene oxide and acrylamide were used to improve fabrication. Stand-alone calcium alginate beads exhibited superior Pb2+ adsorption, with a capacity of 213 mg g−1 at 20 °C and pH 3.5, surpassing composite and commercial resins. Additives like acrylamide and graphene oxide in composite alginate resins led to a 21–40% decrease in Pb2+ adsorption due to reduced active sites. Column operations confirmed Alginate systems’ practicality, with 20–24% longer operating times, 15 times lower adsorbent mass on scale-up and 206% smaller column diameters compared to commercial counterparts. Ultimately, this study advocates for Sargassum-based Alginate ion-exchange beads as a bio-based alternative in Trinidad and developing nations for dealing with heavy metal ion waste, offering superior heavy metal adsorption performance and supporting resource circularity. Graphical Abstract

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Recent progress in biotechnological approaches for diverse applications of algae: an overview

Saravanakumar,

Sathyanarayanan,

Khan

et al. 2023

Int. J. Environ. Sci. Technol.

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Sargassum natans I Algae: An Alternative for a Greener Approach for the Synthesis of ZnO Nanostructures with Biological and Environmental Applications

Cited by 10 publications

References 69 publications

On the Performance of Sargassum derived Calcium Alginate Ion Exchange Resins for Pb2+ Adsorption: Batch and Packed Bed Applications

On the Performance of Sargassum derived Calcium Alginate Ion Exchange Resins for Pb2+ Adsorption: Batch and Packed Bed Applications

On the performance of Sargassum-derived calcium alginate ion exchange resins for Pb2+ adsorption: batch and packed bed applications

Recent progress in biotechnological approaches for diverse applications of algae: an overview

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