AI Article Synopsis
- An innovative nanocomposite synthesized for hydrogen production from methanolysis on sodium borohydride, utilizing non-noble metal FeCo and Polyvinylpyrrolidone as the support material.
- Characterization showed particle sizes of 2.59 nm (XRD) and 5.45 nm (TEM), while key catalytic performance metrics were established, including turnover frequency and activation energy of 3858.9 min and 31.93 kJ/mol, respectively.
- The FeCo@PVP nanoparticles demonstrated 77% catalytic activity after 4 reuse cycles and achieved a high photocatalytic activity of 94% against MB azo dye under solar light irradiation.
Article Abstract
In this study, an innovative nanomaterial was synthesized for hydrogen production from methanolysis on sodium borohydride (NaBH) in order to be a solution for future energy problems. The nanocomposite containing FeCo, which does not contain noble metals, and whose support material is Polyvinylpyrrolidone (PVP), was synthesized by means of a thermal method. TEM, XRD and FTIR characterization methods were used for the analysis of the morphological and chemical structure of the nanocomposite. Nanocomposite particle size was found to be 2.59 nm according to XRD analysis, and 5.45 nm according to TEM analysis for scale of 50 nm. For catalytic properties of nanomaterial in the methanolysis reaction of NaBH, temperature, catalyst, substrate, and reusability experiments were carried out and kinetic calculations were obtained. Among the activation parameters of FeCo@PVP nanoparticles, turnover frequency, enthalpy, entropy and activation energy were calculated as 3858.9 min, 29.39 kJ/mol, -139.7 J/mol.K, and 31.93 kJ/mol, respectively. As a result of the reusability test of the obtained FeCo@PVP nanoparticles catalysts, which was carried out for 4 cycles, the catalytic activity was 77%. Catalytic activity results are given in comparison with the literature. In addition, the photocatalytic activity of FeCo@PVP NPs was evaluated against MB azo dye under solar light irradiation for 75 min and was found to be as 94%.
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| http://dx.doi.org/10.1016/j.chemosphere.2023.139266 | DOI Listing |
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