Journal of Colloid and Interface Science, ( ISI ), Volume (678), Year (2025-1) , Pages (828-841)

Title : ( Engineering superhydrophilic Ni-Se-P on Ni-Co nanosheets-nanocones arrays for enhanced hydrogen production assisted by hydrazine oxidation reaction )

Authors: Maede Akbari , Alireza Sabour Rouhaghdam , Ghasem Barati Darband ,

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Abstract

The production of hydrogen gas as an environmentally friendly and emission-free fuel source, has emerged as the preeminent substitute for traditional fossil fuels. The demand for a viable and low-cost substitute of the anodic Oxygen Evolution Reaction (OER) in hydrogen gas production has led researchers to explore the Hydrazine Oxidation Reaction (HzOR), aiming to reduce overpotential. In this study, we present the synthesis of a NiSeP@NiCo/Cu electrocatalyst via electrodeposition method, offering precise control over parameter adjustments and an affordable price. The binder-free nanosheet structure of this electrocatalyst demonstrates improved performance in water electrolysis, resulting in potentials of −40 and −134 mV vs. Reversible Hydrogen Electrode (RHE) for Hydrogen Evolution Reaction (HER) and 0.041 and 0.194 V (vs. RHE) for HzOR (i = 10 and 100 mA.cm−2). The electrode has excellent features, including active electrochemical surface, synergistic effects among the elements, high stability, super-hydrophilicity and super-aerophobicity. The Bi-functional performance of electrode was tested in a two-electrode set for HER/HzOR, the cell voltage required to reach current densities of 10 and 100 mA.cm−2 were determined as 0.071 and 0.298 V respectively. On the whole, this work presents the excellent capabilities of the synthesized electrode (NiSeP@NiCo/Cu) for hydrogen gas production.

Keywords

, Hydrogen evolution reaction Hydrazine oxidation reaction Nanosheet Electrocatalyst Bi, functional
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@article{paperid:1099836,
author = {مائده اکبری and علیرضا صبور روح اقدم and Barati Darband, Ghasem},
title = {Engineering superhydrophilic Ni-Se-P on Ni-Co nanosheets-nanocones arrays for enhanced hydrogen production assisted by hydrazine oxidation reaction},
journal = {Journal of Colloid and Interface Science},
year = {2025},
volume = {678},
month = {January},
issn = {0021-9797},
pages = {828--841},
numpages = {13},
keywords = {Hydrogen evolution reaction Hydrazine oxidation reaction Nanosheet Electrocatalyst Bi-functional},
}

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%0 Journal Article
%T Engineering superhydrophilic Ni-Se-P on Ni-Co nanosheets-nanocones arrays for enhanced hydrogen production assisted by hydrazine oxidation reaction
%A مائده اکبری
%A علیرضا صبور روح اقدم
%A Barati Darband, Ghasem
%J Journal of Colloid and Interface Science
%@ 0021-9797
%D 2025

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