Efficient hydrogen evolution from NaBH4 using bimetallic nanoparticles (Ni–Co) supported on recycled Zn–C battery electrolyte paste

Electrolytic paste (EP) from used batteries was innovatively utilized as a support for Ni–Co nanoparticles (Ni–Co NPs) to catalyze hydrogen evolution from NaBH4. The materials exhibited a porous and heterogeneous morphology, characterized by a ZnMn2O4 interplanar distance of 0.34 nm, as confirmed by...

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Published inInternational journal of hydrogen energy Vol. 53; pp. 1323 - 1331
Main Authors Junior, Iterlandes M., Sperandio, Gabriel H., Lopes, Renata P.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 31.01.2024
Subjects
Catalysis
e-waste
Heterogeneous catalysis
Hydrogen storage
Nanoparticles
Nanoparticles
e-waste
Heterogeneous catalysis
Hydrogen storage
Catalysis
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Summary:Electrolytic paste (EP) from used batteries was innovatively utilized as a support for Ni–Co nanoparticles (Ni–Co NPs) to catalyze hydrogen evolution from NaBH4. The materials exhibited a porous and heterogeneous morphology, characterized by a ZnMn2O4 interplanar distance of 0.34 nm, as confirmed by SAED analysis. Elemental analysis identified carbon, nitrogen, hydrogen, and sulfur, while ICP-MS quantified zinc, manganese, and iron. XRD unveiled an amorphous broad peak at 2θ = 13.3–39.8°, with additional phases identified as ZnO, graphite, simonkolleite, manganese oxides, and hetaerolite. Raman spectroscopy showcased characteristic bands typical of carbonaceous materials. FTIR detected functional groups alongside Ni–O, Co–O, and Zn–O bonds. Various Ni/Co ratios were assessed, and the 25:75 and 20:80 (w/w) ratios showed optimal performance, yielding hydrogen at rates of 238.1 and 278.0 mL H2 gcatalyst−1 min−1, respectively. The determined activation energy was 32.76 kJ mol−1. The turnover frequency reached 1823.93 mL H2 gcatalyst−1 min−1 (328.15 K), and the catalyst exhibited satisfactory performance over 16 reuse cycles. [Display omitted] •Recovery of electrolytic paste (EP) from spent Zn–C batteries.•EP decorated with bimetallic Ni–Co (8:2) nanoparticles (NPs).•Hydrogen evolution from NaBH4 catalyzed by Ni–Co NPs (8:2)/EP.•Ni–Co NPs (8:2)/EP can be reused up to 16 cycles.•The maximum turnover frequency was 1617.34H2 gcatal−1 min−1 (55 °C).
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2023.11.362