Novel amino-ethyl carboxymethyl cellulose crosslinked ampholyte hydrogel development for Methyl orange removal from waste water

Omer, Ahmed M.; Sadik, Wagih A.; Abbas, Rafik; Tamer, Tamer M.; Abd-Ellatif, Mai M.; Mohy-Eldin, Mohamed S.

doi:10.1038/s41598-024-64245-8

Sci Rep

2024

DOI: 10.1038/s41598-024-64245-8

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Novel amino-ethyl carboxymethyl cellulose crosslinked ampholyte hydrogel development for Methyl orange removal from waste water

Ahmed M. Omer,

Wagih A. Sadik,

Rafik Abbas

et al.

Abstract: In the modern era, with the rapid growth of various industries, the issues of energy crisis and environmental pollution have garnered increasing attention. One significant source of industrial pollution is printing and dyeing wastewater. This wastewater often contains dyes that have aromatic structures and azo groups, such as Methyl orange (MO), which are both toxic and difficult to degrade. If these dyes are released into the wastewater stream without any treatment, they can have adverse effects on ecological… Show more

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2025

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References 76 publications

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Development of Antibacterial Hydrogels Based on Biopolymer Aloe Vera/Gelatin/Sodium Alginate Composited With SM‐AgNPs Loaded Curcumin‐Nanoliposomes

Saenchoopa,

Plaeyao,

Talodthaisong

et al. 2025

Macromolecular Bioscience

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To address the rising prevalence of bacterial infections and the need for innovative therapeutic solutions, this study has developed a novel antibacterial hydrogel composite composed of Aloe vera, gelatin, sodium alginate, and Sterculia monosperma‐silver nanoparticles (SM‐AgNPs) loaded curcumin‐nanoliposomes (NLPs). The aloe vera/gelatin/sodium alginate hydrogels (AGS) are prepared using different weight ratios of Aloe vera, gelatin, and sodium alginate, aiming to optimize mechanical properties and biocompatibility for biomedical applications. The incorporation of SM‐AgNPs and curcumin‐loaded NLPs enhanced the hydrogels' antibacterial properties. Characterizations of the hydrogels are performed by using Fourier‐transform infrared spectroscopy, thermogravimetric analysis, and scanning electron microscopy. Additional examinations, such as water absorption analysis, rheology measurements, thermal stability, and injectability, along with pH and temperature responsiveness, are also conducted. The AGS‐3 hydrogel formulation, with a 1:5:3 ratio of Aloe vera to gelatin to sodium alginate, exhibited significant performance in all tests, making it suitable for further experiments. Furthermore, antimicrobial activity assays showed that AGS hydrogels containing SM‐AgNPs/NLP composites effectively inhibited the growth of both gram‐positive Staphylococcus aureus (S.aureus) and gram‐negative Escherichia coli (E.coli) bacteria. These results indicate that the SM‐AgNPs/NLP‐AGS hydrogel is a promising material for biomedical applications including wound healing, infection prevention, and targeted drug delivery.

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Development of Antibacterial Hydrogels Based on Biopolymer Aloe Vera/Gelatin/Sodium Alginate Composited With SM‐AgNPs Loaded Curcumin‐Nanoliposomes

Saenchoopa,

Plaeyao,

Talodthaisong

et al. 2025

Macromolecular Bioscience

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Novel amino-ethyl carboxymethyl cellulose crosslinked ampholyte hydrogel development for Methyl orange removal from waste water

Cited by 1 publication

References 76 publications

Development of Antibacterial Hydrogels Based on Biopolymer Aloe Vera/Gelatin/Sodium Alginate Composited With SM‐AgNPs Loaded Curcumin‐Nanoliposomes

Development of Antibacterial Hydrogels Based on Biopolymer Aloe Vera/Gelatin/Sodium Alginate Composited With SM‐AgNPs Loaded Curcumin‐Nanoliposomes

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