AI Article Synopsis
- Nanoparticle-based MgO hollow microspheres were created using a template-free hydrothermal method with citrate for structure formation, and Zn was added to enhance surface charge.
- Both pure and Zn-doped MgO were extensively analyzed using techniques like XRD, SEM, and EDX, demonstrating unique porous structures that significantly improve their capability to adsorb Congo red dye, with capacities of 3022.02 mg g-1 and 2953.39 mg g-1, respectively.
- The Zn-doped MgO achieved adsorption equilibrium in 45 minutes compared to 120 minutes for pure MgO, and both samples maintained high effectiveness after multiple regeneration cycles, indicating their potential applications in wastewater treatment.
Article Abstract
Nanoparticle-built MgO hollow microspheres were synthesized through a template-free hydrothermal route using citrate as a structural director. Zn was introduced into MgO to improve the surface charge. Pure MgO and Zn-doped MgO samples were characterized by X-ray diffraction (XRD), energy-dispersive X-ray spectrometry (EDX), scanning electron microscopy (SEM), transmission electron microscopy (TEM) and a zeta-potential analyzer. The as-prepared microspheres showed outstanding performance for the removal of Congo red (CR, anionic dye) from solutions. The maximum adsorption capacities of pure MgO and Zn-doped MgO samples were 3022.02 and 2953.39 mg g-1, respectively. The Zn-loaded sample only required 45 min to reach equilibrium, which was much shorter than that of pure MgO sample (120 min) and most previously reported adsorbents. The high adsorption capacity and efficiency for CR removal resulted from the samples' unique porous structures and positive surface charges at pH 7. The adsorption process followed Langmuir isotherm and pseudo-second-order model. Regeneration assessment was conducted by a method of calcining for four times, and the observed steady adsorption efficiency indicated a bright prospect for the two samples in wastewater treatment.
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Article Synopsis
- Nanoparticle-based MgO hollow microspheres were created using a template-free hydrothermal method with citrate for structure formation, and Zn was added to enhance surface charge.
- Both pure and Zn-doped MgO were extensively analyzed using techniques like XRD, SEM, and EDX, demonstrating unique porous structures that significantly improve their capability to adsorb Congo red dye, with capacities of 3022.02 mg g-1 and 2953.39 mg g-1, respectively.
- The Zn-doped MgO achieved adsorption equilibrium in 45 minutes compared to 120 minutes for pure MgO, and both samples maintained high effectiveness after multiple regeneration cycles, indicating their potential applications in wastewater treatment.
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