Cu-P@silica-CNT-based catalyst for effective electrolytic water splitting in an alkaline medium with hydrazine assistance.
Nezar H KhdaryAsmaa R M El-GoharyAhmed GalalAhmed M AlhassanSami D AlzahrainPublished in: RSC advances (2024)
In this study, we prepared a potential catalyst as an electrode modifier for electrolytic water splitting. In the preparation step, the amine was decorated with copper-phosphorus. It was immobilized over the silica surface, and the surface was engineered using N -(3-(trimethoxysilyl) propyl)ethylenediamine for the synthesis of the catalysts (AS). The morphological and structural aspects of the catalyst (AFS-Cu-P) were determined using FE-SEM/EDAX, FTIR, elemental analysis, BET, TGA, and XPS. The catalyst's efficacy for the oxygen evolution reaction (OER) was assessed in an alkaline medium with and without hydrazine. The hydrazine oxidation reaction enhanced the sluggish OER and facilitated water splitting. Detailed electrochemical measurements confirmed an increase in the kinetics of the process and a reduction in the activation energy needed to complete the process. The Tafel slopes, charge transfer coefficients, exchange-specific current densities, apparent rate constants, and diffusion coefficients are provided along with their respective values. The results showed that the presence of Cu and CNT is crucial in the conversion process.
Keyphrases
- metal organic framework
- ionic liquid
- highly efficient
- reduced graphene oxide
- visible light
- room temperature
- fluorescent probe
- aqueous solution
- gold nanoparticles
- carbon dioxide
- electron transfer
- molecularly imprinted
- hydrogen peroxide
- nitric oxide
- magnetic resonance
- anaerobic digestion
- human health
- magnetic resonance imaging
- climate change
- sewage sludge