Efficient remediation of ciprofloxacin from aqueous solution using MgO/C nanocomposites: Isotherm and kinetic studies DOI Creative Commons
J. Aravind Kumar,

R. Kamalesh,

A. Saravanan

и другие.

Research Square (Research Square), Год журнала: 2025, Номер unknown

Опубликована: Апрель 1, 2025

Abstract Ciprofloxacin (CIP), has been detected frequently in aquatic resources at upsetting attentions, which created a growing concern. The key focus of this study is to examine ciprofloxacin removal using MgO/C nanocomposite. synthesized Magnesium oxide nanoparticle embedded with carbon substrate was employed as catalyst for from the water-based solution. research encompasses multifaceted analytical approach, instance, FTIR, BET, XRD, and SEM EDAX. FTIR confirms presence Mg – O stretching bond range 738 cm‾¹. analysis formation agglomerated spherical particles. EDAX 64.45 percent, 6.02 oxygen 26.68 percent. BET reveals high surface area 548 m²/g 60% total porosity, predominantly mesoporous (2–10 nm) structure. XRD indicates nanocomposite cubic rock salt structure peak 29, 41, 61, corresponding nanoparticles. CIP involves optimal constraints such pH-6, dosage- 1.25 g/L, concentration − 25 mg/L, time 40 min, temperature 30 ℃. focuses on isotherm kinetics model providing supporting technical data better understanding adsorption behavior. best-fit found be Langmuir an R2 value 0.9705 pseudo-1st order kinetics. investigation reports efficiency treating through cost-effective approach while promoting ecological sustainability.

Язык: Английский

Efficient remediation of ciprofloxacin from aqueous solution using MgO/C nanocomposites: Isotherm and kinetic studies DOI Creative Commons
J. Aravind Kumar,

R. Kamalesh,

A. Saravanan

и другие.

Research Square (Research Square), Год журнала: 2025, Номер unknown

Опубликована: Апрель 1, 2025

Abstract Ciprofloxacin (CIP), has been detected frequently in aquatic resources at upsetting attentions, which created a growing concern. The key focus of this study is to examine ciprofloxacin removal using MgO/C nanocomposite. synthesized Magnesium oxide nanoparticle embedded with carbon substrate was employed as catalyst for from the water-based solution. research encompasses multifaceted analytical approach, instance, FTIR, BET, XRD, and SEM EDAX. FTIR confirms presence Mg – O stretching bond range 738 cm‾¹. analysis formation agglomerated spherical particles. EDAX 64.45 percent, 6.02 oxygen 26.68 percent. BET reveals high surface area 548 m²/g 60% total porosity, predominantly mesoporous (2–10 nm) structure. XRD indicates nanocomposite cubic rock salt structure peak 29, 41, 61, corresponding nanoparticles. CIP involves optimal constraints such pH-6, dosage- 1.25 g/L, concentration − 25 mg/L, time 40 min, temperature 30 ℃. focuses on isotherm kinetics model providing supporting technical data better understanding adsorption behavior. best-fit found be Langmuir an R2 value 0.9705 pseudo-1st order kinetics. investigation reports efficiency treating through cost-effective approach while promoting ecological sustainability.

Язык: Английский

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