Title of article :
Adsorptive Removal of Methylene Blue Dye from Aqueous Solutions using CoFe1.9Mo0.1O4 Magnetic Nanoparticles
Author/Authors :
Amar, I. A Department of Chemistry - Faculty of Science - Sebha University - Sebha - Libya - Central Laboratory at Sebha University - Sebha - Libya , Sharif, A Department of Chemistry - Faculty of Science - Sebha University - Sebha - Libya , Alkhayali, M. M Department of Chemistry - Faculty of Science - Sebha University - Sebha - Libya , Jabji, M. A Department of Chemistry - Faculty of Science - Sebha University - Sebha - Libya , Altohami, F Department of Chemistry - Faculty of Science - Sebha University - Sebha - Libya , Abdul Qadir, M. A Department of Chemistry - Faculty of Science - Sebha University - Sebha - Libya , Ahwidi, M. M Department of Chemistry - Faculty of Science - Sebha University - Sebha - Libya
Abstract :
In this study, the adsorption properties of spinel ferrite-based adsorbent, CoFe1.9Mo0.1O4 (CFMo), for the removal of methylene blue (MB) from aqueous solution were investigated. Sol-gel process was successfully employed to prepare CoFe1.9Mo0.1O4 magnetic nanoparticles. The synthesized adsorbent was characterized by Fourier transform infrared (FTIR), scanning electron microscope (SEM) and X-ray diffraction (XRD). The adsorption experiments were carried out at various operational conditions (solution pH, initial dye concentration, contact time, adsorbent dosage and temperature) to evaluate the potential adsorption
property of CFMo magnetic nanoparticles. The results showed that, under the optimum adsorption parameters, approximately 95 % of MB dye can be removed. The adsorption data were described by Langmuir isotherm model and the maximum amount of MB adsorbed was about 20.45 mg/g. Several adsorption kinetic
models and thermodynamic parameters ( G , H , S ) were used to fit the adsorption experimental data. The adsorption kinetics followed the pseudo-second-order model (PSO), while the thermodynamic parameters indicate that the proposed adsorption process was endothermic and spontaneous in nature. The obtained
results suggest that CFMo is promising adsorbent material for the removal of very toxic dyes from aqueous solutions.
Farsi abstract :
در اين پژوهش، خواص جذب جاذب بر پايه فريت اسپينل (CoFe1.9Mo0.1O4 (CFMo به منظور حذف متيلن بلو (MB) از محلول آبي مورد ارزيابي قرار گرفت. فرايند سل-ژل به طور موفقي براي تهيه نانوذرات آهنربايي CoFe1.9Mo0.1O به كار گرفته شد. خصوصيات جاذب سنتز شده از طريق طيف سنجي مادون قرمز( FTIR ) , ميكروسكوپ الكتروني روبشي (SEM) و پراش اشعه ايكس (XRD) شناسايي گرديد. آزمايشات جذب در شرايط عملياتي مختلف (pH محلول، غلظت رنگ اوليه، زمان تماس، ميزان جاذب و دما)، جهت ارزيابي ظرفيت جذب نانوذرات آهنربايي CFMo انجام شد. نتايج حاكي از آن است كه تحت پارامترهاي بهينه جذب، حدود 95٪ از رنگ MB ميتواند حذف شود. داده هاي جذب با استفاده از مدل ايزوترم لانگ موير توصيف گرديد و حداكثر ميزان MB جذب شده
4) براي تطبيق دادههاي تجربي جذب استفاده گزارش شد. چندين مدل سينتيكي جذب و پارامترهاي ترموديناميكي رح، °AH و 45 / 20 حدود mg
/ g گرديد. سينتيك جذب از يك مدل درجه شبه دو (PSO) تبعيت نموده، و پارامترهاي ترموديناميكي نشان مي دهد كه فرايند جذب پيشنهادي، به صورت گرماگير و خودبخودي رخ مي دهد. نتايج حاصل بيانگر آن است كه CFMo تركيب جاذب اميدبخشي براي حذف رنگ هاي بسيار سمي از محيط هاي آبي مي باشد.
Keywords :
Spinel ferrite nanomaterial , Adsorption model , Dye removal , Adsorption kinetics , Adsorption isotherms
Journal title :
Astroparticle Physics
