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Functionalized Carbon Nanotubes Encapsulated Alginate Beads for the Removal of Mercury Ions: Design, Synthesis, Density Functional Theory Calculation, and Demonstration in a Batch and Fixed-Bed Process

Ashish Kumar Singha Deb, Manju Mohan, Smita Govalkar, Kinshuk Dasgupta, Sk. Musharaf Ali

2023ACS Omega15 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Various nanomaterials have been envisaged mainly through batch studies for environmental remediation application. The real utilization of these new generation adsorbents in large scale pose a difficulty due to its low density and small size which makes it difficult for isolation after application. In this context, nanoadsorbents polymer composite beads can be seen as a way out. Here, functionalized CNTs (carbon nanotubes) have been fabricated into micro beads with sodium alginate. The alginate-functionalized CNT (Alg-f-CNT) beads were then comprehensively evaluated for batch and fixed-bed column separation of divalent mercury ions from an aqueous medium. The effects of process parameters such as pH, contact time, feed Hg 2+ concentration, and temperature were studied. Simulation of the experimental data suggested that adsorption is an endothermic spontaneous process which follows the pseudo-second-order kinetic and Langmuir isotherm model. The desorption of the Hg 2+ ion from used adsorbent was possible with 1 M HNO 3 . The breakthrough curves at different process parameters were investigated during fixed-bed column separation and found to be in good agreement with Thomas model. The regeneration and reusability of the adsorbent were tested up to five cycles without a significant decrease in the removal performance. Density functional theory studies revealed stronger interaction of Alg-f-CNT with Hg compared to free alginic acid and established the role of carboxyl and oxo groups present in the adsorbent in the coordination of the Hg 2+ ions. The experimental results demonstrate that functionalized CNT-encapsulated alginate beads are a promising alternate material, which can be used to remove mercury in the fixed-bed column mode of the operation.

Topics & Concepts

AdsorptionEndothermic processCarbon nanotubeChemical engineeringDesorptionMaterials scienceAqueous solutionLangmuir adsorption modelNanomaterialsSeparation processChemistryChromatographyNanotechnologyOrganic chemistryEngineeringAdsorption and biosorption for pollutant removalNanopore and Nanochannel Transport StudiesGraphene research and applications