Journal
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
Volume 48, Issue 16, Pages 6399-6417Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2022.09.213
Keywords
Polymeric hydrogel beads; MNPs; Catalytic reduction; NPs; Dye; H 2 production
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In this study, hydrogel beads were fabricated using a viscous solution of sodium alginate polymer containing dispersed silica. The hydrogel beads were then modified with five different types of metal to create metal coated catalysts. These catalysts were further converted into zero-valent metal nanoparticles using NaBH4. The Cu0/Si@AlgBDs catalyst showed the highest efficiency in the reduction of 4-NP to 4-AP and was chosen for further study. It also demonstrated excellent catalytic activity in the decolorization of various compounds and in the generation of H2 gas.
In the present study, a viscous solution of sodium alginate polymer (Alg) containing dispersed silica (Si) was prepared for the fabrication of hydrogel beads. It was added dropwise into a divalent calcium (Ca thorn 2) ions solution which convert each drop into a hydrogel bead i.e, Si@AlgBD. In the next step, the outer surface of the Si@AlgBDs were modified with five different types of metal. As a result, it gives five types of metal coated M thorn n/Si@AlgBDs catalyst. These coated M thorn n [M thorn n 1/4 Ag thorn , Ni thorn 2, Fe thorn 3, Co thorn 2, and Cu thorn 2] were converted into zero-valent metal nanoparticles (MNPs) [M0 1/4 Ag0, Ni0, Fe0, Co0, and Cu0] by NaBH4, which act as a strong reducing agent. Firstly, all catalysts were analyzed for the reduction of 4-NP to 4-AP to check out the efficiency of catalysts. Among which the reduction rate was higher for Cu0/Si@AlgBDs catalyst and was chosen for further study. Secondly, the Cu0/Si@AlgBDs catalyst was examined for the decolorization of 2nitrophenol (2-NP), 2,6-dinitrophenol (2,6-DNP), methyl orange (MO), congo red (CR), and acridine orange (ArO). Additionally, its catalytic reduction was analyzed for the reduction of 4-NP to 4-AP in different quality of water sources. The highest reduction rate of 6.207 101 and 8.619 101 min1 was calculated for CR and 4-NP, respectively. Beside its catalytic reduction, the same catalyst was evaluated for the generation of H2 gas from NaBH4 through methanolysis. Where, the lowest Ea energy of 25.9 kJ/mol was calculated at room temperature. In both experimental procedures i.e, catalytic reduction and H2 production, different parameters, such as, catalyst dosage, different amount of the NaBH4, initial concentration of the 4-NP, and temperature effect for the H2 production were studied in detail. Similarly, the hydrogel beads were characterized by SEM, EDX, and ICP-OES to identify and find out the successful incorporation of MNPs on Si@AlgBDs. Finally, the recyclability of the catalyst was also investigated.& COPY; 2022 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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