ZnO doped highly porous activated charcoal-polyaniline incorporated NiP coatings as high performance electrocatalyst for hydrogen evolution reaction†

IF 2.7 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

New Journal of Chemistry Pub Date : 2024-09-05 DOI:10.1039/D4NJ03362K

Aswathy Retnakaran Sugandhi, Akhila Mohammed, Sumi Vijayakumari Sasidharan Nair and Rijith Sreenivasan

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Abstract

Hydrogen production via electrocatalytic water splitting has attracted significant research attention in recent years as it is a clean, sustainable, and renewable energy source. Transition metal phosphides, especially nickel phosphides and transition metal oxides, exhibit high catalytic activity for hydrogen evolution. To overcome current limitations such as high overpotential and instability of catalysts, we developed ZnO-doped highly porous activated charcoal polyaniline-incorporated NiP coatings as electrocatalysts for HER using a simple electroless coating method. The developed catalyst (AC/PANI-ZnO-NiP) exhibits low overpotential (97 mV) at 10 mA cm⁻², low Tafel slope (81 mV dec⁻¹), and high C_dl (280.9 μF). The exceptional electrochemical performance is due to the presence of a protonated NH group in PANI and increased surface roughness and porosity owing to the presence of ZnO nanoparticles.

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掺杂氧化锌的高多孔活性炭-聚苯胺-掺杂 NiP 涂层作为氢进化反应的高性能电催化剂

近年来，通过电催化分水制氢作为一种清洁、可持续和可再生能源，引起了大量研究人员的关注。过渡金属磷化物，尤其是镍磷化物和过渡金属氧化物，在氢气进化方面表现出很高的催化活性。为了克服目前催化剂存在的高过电位和不稳定性等局限性，我们采用简单的无电镀涂层方法，开发了掺杂氧化锌的高多孔活性炭聚苯胺包合镍磷涂层，作为氢进化的电催化剂。所开发的催化剂（AC/PANI-ZnO-NiP）在 10 mA cm-2 时具有较低的过电位（97 mV）、较低的塔菲尔斜率（81 mV dec-1）和较高的 Cdl（280.9 μF）。PANI 中质子化 NH 基团的存在以及 ZnO 纳米粒子的存在所带来的表面粗糙度和孔隙率的增加是其具有优异电化学性能的原因。

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