Hydrogen is an ideal candidate for the replacement of fossil fuels in the future due to zero
emission of carbonaceous species during its utilization. Water electrolysis is a dependable …

The most commonly used methods to electrodeposit nanomaterials on conductive supports
or to obtain electrosynthesis nanomaterials are described. Au, layered double hydroxides …

The utilization of rare earth elements to regulate the interaction between catalysts and
oxygen‐containing species holds promising prospects in the field of oxygen electrocatalysis …

The development of efficient and robust earth‐abundant electrocatalysts for the oxygen
evolution reaction (OER) is an ongoing challenge. Here, a novel and stable trimetallic …

Layered double hydroxide (LDH) films have been widely investigated in the last few years
because of their promising applications in areas such as catalysis, anti-corrosion coatings …

The design of a high performance, stable and cost-effective electrocatalyst for oxygen
evolution is crucial for H2 production from electrochemical water splitting. Here, as a dual …

In the present work, the hydrotalcite-like materials known as layered double hydroxides
(LDHs) were synthesized. The Ni–Al and Ni–Fe materials with different Ni/Fe ratio were …

Clay-modified electrodes (CLMEs) have received attention in the development of
electrochemical sensors and biosensors. This article reviews the use of CLME for these …

A new Cu metal–organic framework (Cu-MOF),[Cu (adp)(BIB)(H 2 O)] n (BIB= 1, 4-
bisimidazolebenzene; H 2 adp= adipic acid), is synthesised under hydrothermal conditions …

Two-dimensional inorganic solids, such as layered double hydroxides (LDHs), also defined
as anionic clays, have open structures and unique anion-exchange properties which make …