Dennise Sosa scite author profile

Superabsorbent polymers (SAPs) have attracted tremendous attention recently, with researchers noting that their high water absorbability is valuable for various applications, especially in agricultural contexts. Two types of materials can be used to produce SAPs: Fossil-based (which are harmful to the environment) and bio-based (which are significantly more environmentally friendly, given their biodegradability and minimal toxic side effects). Although bio-based SAPs are preferable for environmental reasons, their synthesis tends to be time consuming and labour intensive, while their absorption capacity (AC) can be far below expectations. To address these problems, a novel, eco-friendly, cellulose-based superabsorbent polymer (Cellulo-SAP) was developed in this study through facile preparation via free radical synthesis using modified cellulose. Then, the absorbency, thermal/pH stability, reusability, and biodegradability of Cellulo-SAP were evaluated. This new polymer demonstrated reusability as a water reservoir, in addition to high thermal and pH stability.More importantly, Cellulo-SAP achieved an AC of 475 g/g and exhibited superior biodegradability compared to a commercial, fossil-based SAP. Accordingly, these results prove that Cellulo-SAP can be used in agriculture as an effective alternative to fossil-based SAPs.

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Production of bio‐based concrete water reducers from renewable resources: a review

Johnson

Sosa

Arredondo

et al. 2023

Biofuels Bioprod Bioref

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Concrete is a valuable construction material with high mechanical strength and durability, used extensively in the construction industry. It is produced by mixing sand, stones, cement, and water in different proportions depending on the desired quality of the final product. Water reducers are additional chemical ingredients used in concrete to reduce the quantity of water required in the concrete mixture. When added to concrete, water reducers increase the workability and flowability of concrete in the freshly mixed state and improve the mechanical strength and durability of the final hardened product. This review paper describes the different types and applications of concrete water reducers used in the construction industry including their working mechanisms and fluidity effects on concrete properties. It discusses the production of synthetic and bio‐based concrete water reducers and reviews the present challenges involved in the preparation of bio‐based concrete water reducers from renewable resources. © 2023 Society of Industrial Chemistry and John Wiley & Sons Ltd.

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Author response for "Performance of a novel, eco‐friendly, cellulose‐based superabsorbent polymer ( <scp>Cellulo‐SAP</scp> ): Absorbency, stability, reusability, and biodegradability"

Arredondo¹,

Yuan²,

Sosa³

et al. 2022

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Dennise Sosa

Performance of a novel, eco‐friendly, cellulose‐based superabsorbent polymer (Cellulo‐SAP): Absorbency, stability, reusability, and biodegradability

Production of bio‐based concrete water reducers from renewable resources: a review

Author response for "Performance of a novel, eco‐friendly, cellulose‐based superabsorbent polymer ( <scp>Cellulo‐SAP</scp> ): Absorbency, stability, reusability, and biodegradability"

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