Bioadsorption of silver ions by calcareous chitin, chitin and chitosan

John Jáuregui-Nongrados; Angel T. Alvarado; Miguel Mucha; Ana M. Muñoz; Haydee Chávez; Aura Molina-Cabrera; Pompeyo A. Cuba-García; Elizabeth J. Melgar-Merino; Mario Bolarte-Arteaga; Jaime A. Mori-Castro

doi:10.56499/jppres22.1529_11.1.101

Journal of Pharmacy & Pharmacognosy Research (Jan 2023)

Bioadsorption of silver ions by calcareous chitin, chitin and chitosan

John Jáuregui-Nongrados,
Angel T. Alvarado,
Miguel Mucha,
Ana M. Muñoz,
Haydee Chávez,
Aura Molina-Cabrera,
Pompeyo A. Cuba-García,
Elizabeth J. Melgar-Merino,
Mario Bolarte-Arteaga,
Jaime A. Mori-Castro

Affiliations

John Jáuregui-Nongrados: Environmental Engineering, San Ignacio de Loyola University, La Molina 15024, Lima, Peru.
Angel T. Alvarado: International Research Network of Pharmacology and Precision Medicine (REDIFMEP), San Ignacio de Loyola University, La Molina 15024, Lima, Peru.
Miguel Mucha: Environmental Engineering, San Ignacio de Loyola University, La Molina 15024, Lima, Peru.
Ana M. Muñoz: Institute of Food Science and Nutrition, ICAN, San Ignacio de Loyola University, La Molina 15024, Lima, Peru.
Haydee Chávez: Faculty of Pharmacy and Biochemistry, San Luis Gonzaga National University of Ica, 11004, Ica, Peru.
Aura Molina-Cabrera: Faculty of Pharmacy and Biochemistry, San Luis Gonzaga National University of Ica, 11004, Ica, Peru.
Pompeyo A. Cuba-García: Faculty of Pharmacy and Biochemistry, San Luis Gonzaga National University of Ica, 11004, Ica, Peru.
Elizabeth J. Melgar-Merino: Faculty of Pharmacy and Biochemistry, San Luis Gonzaga National University of Ica, 11004, Ica, Peru.
Mario Bolarte-Arteaga: Human Medicine, Continental University, Los Olivos 15304, Lima, Peru.
Jaime A. Mori-Castro: Professional School of Nursing, Faculty of Health Sciences, Norbert Wiener University, Lince 15046, Lima, Peru.

DOI: https://doi.org/10.56499/jppres22.1529_11.1.101
Journal volume & issue: Vol. 11, no. 1
pp. 101 – 109

Abstract

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Context: Calcareous chitin, chitin, chitosan, and their modifications are used as bioadsorbents of metals and dyes that cause environmental pollution, endocrine disruption, and human diseases. Aims: To evaluate the selective bioadsorption of silver ions (Ag+) by calcareous chitin, chitin, and chitosan. Methods: Experimental and prospective study. The presence of functional groups of the bioadsorbents was identified by Fourier-transformed infrared spectroscopy (FT-IR), 1H-NMR spectroscopy and scanning electron microscopy (SEM). The Langmuir, Freundlich, and Elovich models were applied to describe the adsorption capacity of bioadsorbents according to granule size (20-40, 40-60, 60-80 meshes) and temperature (10, 20, and 30°C). Results: The FT-IR spectrum of calcareous chitin indicates the presence of carbonate (CO3= 1420 cm-1), amide III (1313 cm-1), –OH groups (3441.90 cm-1), and pyranose structure (952.83 cm-1); chitin has –OH groups (3441.90 cm-1), NH (3268 cm-1), amide I (1654 cm-1) and II (1559 cm-1); chitosan has –OH groups (3419.90 cm-1), –NH (3200 cm-1), amide I (1712.18 cm-1), –NH2 (1654.46 cm-1), amide III (1317.11 cm-1) and pyranose structure (1070.12 cm-1 and 1031 cm-1). The Langmuir model indicates greater bioadsorption of Ag+ ions at smaller particle sizes (60-80 = 0.25-0.18 mm) and at a temperature of 20-30°C. Conclusions: The bioadsorption of silver ions (Ag+) by chitosan is greater with respect to calcareous chitin and chitin; the Langmuir model fits for the Ag+ isotherm and suggests that the process is controlled by physisorption.

Published in Journal of Pharmacy & Pharmacognosy Research

ISSN: 0719-4250 (Online)
Publisher: GarVal Editorial Ltda.
Country of publisher: Chile
LCC subjects: Medicine: Therapeutics. Pharmacology; Medicine: Pharmacy and materia medica
Website: https://jppres.com/

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