Abstract
Pd–Ni nanoparticles supported on activated carbon (Pd–Ni/AC) were prepared using a phase transfer method. The purpose of synthesizing ternary composites was to enhance the surface area of synthesized Pd–Ni nanoparticles, as they have a low surface area. The resulting composite was characterized by scanning electronic microscopy (SEM), X-ray diffraction (XRD) and energy-dispersive X-ray spectroscopy (EDX) for investigating its surface morphology, particle size, percentage of crystallinity and elemental composition, respectively. The XRD data and EDX analysis revealed the presence of Pd–Ni alloys impregnated on the AC. Pd–Ni/AC was used as an adsorbent for the removal of the azo dye basic blue 3 from an aqueous medium. Kinetic and isotherm models were used to calculate the adsorption parameters. The most suitable kinetic model amongst the applied models was the pseudo-second-order model, confirming the chemisorption characteristics of the process, and the most suitable isotherm model was the Langmuir model, with a maximum adsorption capacity of 333 mg/g at 333 K. Different experimental parameters, such as the adsorbent dosage, pH, temperature and contact time, were optimized. The optimum parameters reached were: a pH of 12, temperature of 333 K, adsorbent dosage of 0.01 g and optimum contact time of 30 min. Moreover, the thermodynamics parameters of adsorption, such as Gibbs free energy (ΔG°), enthalpy (ΔH°) and entropy (ΔS°), showed the adsorption processes being exothermic with values of ΔH° equal to −6.206 kJ/mol and being spontaneous with ΔG° values of −13.297, −13.780 and −14.264 kJ/mol, respectively at 293, 313 and 333 K. An increase in entropy change (ΔS°) with a value of 0.0242 kJ/mol K, indicated the enhanced disorder at a solid–solution interface during the adsorption process. Recycling the adsorbent for six cycles with sodium hydroxide and ethanol showed a decline in the efficiency of the selected azo dye basic blue 3 up to 79%. The prepared ternary composite was found effective in the removal of the selected dye. The removal of other pollutants represents one of the possible future uses of the prepared adsorbent, but further experiments are required.
Highlights
Despite the rapid development in water reclamation technologies, water pollution is still a major global problem [1]
The aim of this study was to synthesize the Pd–Ni nanomaterials and to impregnate them onto activated carbon to enhance the surface of prepared nanoparticles
The prepared ternary adsorbent was used as an efficient adsorbent for the removal of basic blue 3 (BB-3)
Summary
Despite the rapid development in water reclamation technologies, water pollution is still a major global problem [1]. Bodies of water have been polluted with harmful chemicals due to rapid industrialization, leading to potable water scarcity [2]. Many pollutants, such as heavy metals, radionuclides, phenols, pesticides, herbicides, antibiotics, dyes, etc. [2,3,4,5,6,7,8,9], are constantly released from industry into the environment. Dyes are the most hazardous, containing complex unsaturated organic compounds absorbing light in the visible region, limiting photosynthesis in aquatic environments [10,11].
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