Removal of Amoxicillin from Aqueous Solutions by using Synthesized Highly Hydrogel Surface as a Good Adsorbent

Ibrahim J. Sahib, Aseel M. Aljeboree, Samaa M. Hassan, Layth S. Jasim, Shahad M. Qasim, AyadAyad F. Alkaim

PDF

Published: Oct 9, 2023

Ibrahim J. Sahib, Aseel M. Aljeboree, Samaa M. Hassan, Layth S. Jasim, Shahad M. Qasim, AyadAyad F. Alkaim

Abstract

Because of the potential for reversible effects on living organisms and bacterial elaboration resistance, removing drugs from aqueous solutions is critical. Deals with the amoxicillin AMX removal trial using hydrogel. (F-TIR), (F.E-SEM), and UV-visible spectroscopy were used to describe the hydrogel of sodium alginate-g-poly (Acrylic acid-fumaric acid). The purpose of the adsorption investigation was to determine the impact of (10-100 mg L^-1) conc. of AMX Optimization appear to have the best percentage percent removal at 97.40 percent at concentration 100
mg L^-1, and contact duration 2hr. Take a look at two isotherm models. The second order model (R2= 0.9041) outperforms the Freundlich, Langmuir (R2= 0.9772), and three types of kinetic models (first order, second order, and Elchovich).

Issue

Vol. 13 No. 1 (2023)

Section

Articles

Information for Authors

Dear Readers, Researchers, and Subscribers,

We would like to inform you that the only authentic and official website of the Journal of Chemical Health Risks (JCHR) is www.jchr.org. We have recently noticed that there are several websites claiming to represent the Journal of Chemical Health Risks, but please be aware that these websites are unauthorized and potentially fraudulent. For any inquiries, subscriptions, or submissions to the Journal of Chemical Health Risks, please always refer to www.jchr.org. If you have any doubts or come across any suspicious websites or platforms claiming to be affiliated with us, please do not hesitate to contact our official support team through the website for verification.