This review focuses on some of the recent advances on scanning electrochemical
microscopy (SECM) applied to studies of heterogeneous chemical processes and chemical …

In situ and accurate measurement of the structure and dynamics of interfacial water in the
hydrogen evolution reaction (HER) is a well-known challenge because of the coupling of …

The emergence of high-performance noble metal-free electrodes in water splitting
operations to produce hydrogen is of paramount importance to generate new energy in the …

Water electrolysis is a promising approach to hydrogen production from renewable energy
sources. Alkaline water electrolyzers allow using non-noble and low-cost materials. An …

Abstract Porous Ni-Cu alloy films composed of nanosheets are directly fabricated on Cu
substrate using a facile potentiostatic electrodeposition approach from a 1: 2 choline …

Abstract Design of inexpensive and highly efficient bifunctional electrocatalyst is paramount
for overall water splitting. In this study, amorphous Ni–Fe–P alloy was successfully …

In this study, nickel (Cu/Ni), iron (Cu/Fe) and nickel–iron (Cu/NiFe) composite coatings with
various chemical compositions were electrochemically deposited on a copper electrode and …

Producing hydrogen via electrochemical water splitting with minimum environmental harm
can help resolve the energy crisis in a sustainable way. Here, this work fabricates the pure …

Pt-based catalysts are commercial electrocatalysts for the hydrogen evolution reaction
(HER), but their shortcomings of expensive and imperfect efficiency hinder their large-scale …

Electrochemical water splitting is considered to be one of the most promising strategies to
produce hydrogen to ease the energy crisis. In this study, we demonstrate a galvanic …