An Advanced Quaternary Composite for Efficient Water Splitting
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Date
2023-04-17Author
Sha, Mizaj ShabilN.Musthafa, Farzana
Alejli, Assem
Alahmad, Johaina Khalid
Bhattacharyya, Bagmita
Kumar, Bijandra
Abdullah, Aboubakr M.
Sadasivuni, Kishor Kumar
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Electrochemical water splitting is a promising pathway for effective hydrogen (H2) evolution in energy conversion and storage, with electrocatalysis playing a key role. Developing efficient, cost-effective and stable catalysts or electrocatalysts is critical for hydrogen evolution from water splitting. Herein, we evaluated a graphene-modified nanoparticle catalyst for hydrogen evolution reaction (HER). The electrocatalytic H2 production rate of reduced graphene oxide-titanium oxide-nickel oxide-zinc oxide (rGO–TiO2–NiO–ZnO) is high and exceeds that obtained on components alone. This improvement is due to the presence of rGO as an electron collector and transporter. Moreover, a current density of 10 mA/cm2 was recorded at a reduced working potential of 365 mV for the nanocomposite. The electronic coupling effect between the nanoparticle components at the interface causes the nanoparticle's hydrogen evolution reaction catalytic activity. Graphical Abstract: [Figure not available: see fulltext.]
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