Abstract

Nitrogen-grafting through the addition of glycine (Gly) was performed on a metal- phenolic network (MPN) of copper (Cu2+) and gallic acid (GA) to increase its adsorption capacity. Herein, we reported a one-step synthesis method of MPN, which was developed according to the metal–ligand complexation principle. The nitrogen grafted CuGA (Ng-CuGA) MPN was obtained by reacting Cu2+, GA, and Gly in an aqueous solution at a molar ratio of 1:1:1 and a pH of 8. Several physicochemical measurements, such as Fourier transform infrared (FTIR) spectroscopy, scanning electron microscopy (SEM), N2 sorption, X-ray diffraction (XRD), and thermal gravimetry analysis (TGA), were done on Ng-CuGA to elucidate its characteristics. The analysis revealed that the Ng-CuGA has non-uniform spherical shaped morphology with a pore volume of 0.56 cc/g, a pore size of 23.25 nm, and thermal stability up to 205 °C. The applicational potential of the Ng-CuGA was determined based on its adsorption capacity against methylene blue (MB). The Ng-CuGA was able to adsorb 190.81 mg MB per g adsorbent at a pH of 6 and temperature of 30 °C, which is 1.53 times higher than the non-grafted CuGA. Detailed assessment of Ng-CuGA adsorption properties revealed their pH- and temperature-dependent nature. The adsorption capacity and affinity were found to decrease at a higher temperature, demonstrating the exothermic adsorption behavior.

Highlights

  • Nitrogen-grafting through the addition of glycine (Gly) was performed on a metal- phenolic network (MPN) of copper ­(Cu2+) and gallic acid (GA) to increase its adsorption capacity

  • MPN prepared from a combination of ­Fe3+-tannic acid (FTA) is reported to enhance the hydrophobicity of Zeolitic Imidazolate Framework-8 (ZIF-8)

  • Ng-CuGA complexes were obtained by reacting equimolar amounts of GA, Gly, and C­ u2+ in an aqueous solution, at pH 8 and room temperature

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Summary

Introduction

Nitrogen-grafting through the addition of glycine (Gly) was performed on a metal- phenolic network (MPN) of copper ­(Cu2+) and gallic acid (GA) to increase its adsorption capacity. The nitrogen grafted CuGA ­(Ng-CuGA) MPN was obtained by reacting ­Cu2+, GA, and Gly in an aqueous solution at a molar ratio of 1:1:1 and a pH of 8 Several physicochemical measurements, such as Fourier transform infrared (FTIR) spectroscopy, scanning electron microscopy (SEM), ­N2 sorption, X-ray diffraction (XRD), and thermal gravimetry analysis (TGA), were done on ­Ng-CuGA to elucidate its characteristics. As TA and PDA overdose is postulated to cause adverse effects on human health and the e­ nvironment[20,21]; GA was chosen in this work Besides this toxicity issue, recently, our group reported the potential usage of CuGA as an adsorbent for dye ­removal[22]; functionalization of this particular MPN is expected to improve their adsorptivity. The adsorption performance of ­Ng-CuGA for methylene blue (MB) removal in an aqueous system was investigated

Methods
Results
Conclusion

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