IrCo nanoparticles encapsulated with carbon nanotubes for efficient and stable acidic water splitting
The acidic water-splitting technology based on the polymer exchange membrane can
produce hydrogen efficiently, continuously, and cleanly, which is expected to alleviate the …
produce hydrogen efficiently, continuously, and cleanly, which is expected to alleviate the …
[HTML][HTML] Direct seawaect seawter splitting for hydrogen production: recent advances in materials synthesis and technological innovation
Direct seawater splitting has emerged as a popular and promising research direction for the
synthesis of clean, green, non-polluting, and sustainable hydrogen energy without …
synthesis of clean, green, non-polluting, and sustainable hydrogen energy without …
Deteriorated balance between activity and stability via Ru incorporation into Ir-based oxygen evolution nanostructures
Proton exchange membrane water electrolysis is actively researched to improve the oxygen
evolution reaction (OER) for the effective hydrogen production. However, commercialization …
evolution reaction (OER) for the effective hydrogen production. However, commercialization …
Nanorod Structuring of IrOx on a Unique Microstructure of Sb-Doped Tin Oxide to Dramatically Boost the Oxygen Evolution Reaction Activity for PEM Water …
Proton exchange membrane water electrolysis (PEMWE) is being actively developed as a
promising technology to produce high-purity hydrogen. While PEMWE has been …
promising technology to produce high-purity hydrogen. While PEMWE has been …
NiFe alloy integrated with amorphous/crystalline NiFe oxide as an electrocatalyst for alkaline hydrogen and oxygen evolution reactions
The rational design of efficient and low-cost electrocatalysts based on earth-abundant
materials is imperative for large-scale production of hydrogen by water electrolysis. Here we …
materials is imperative for large-scale production of hydrogen by water electrolysis. Here we …
Acid oxygen evolution reaction: Mechanisms, design principles, and prospects for application in membrane electrodes
Z Liu, X Wang, G Xie, J Ge - Chemical Engineering Journal, 2024 - Elsevier
The sluggish kinetics of acidic oxygen evolution reaction (OER) and high iridium (Ir) are the
main challenges for proton exchange membrane water electrolyze (PEMWE). Numerous …
main challenges for proton exchange membrane water electrolyze (PEMWE). Numerous …
Enhanced hydrogen desorption via charge transfer in Pt Nanoclusters/ReS2 hybrid electrocatalyst for efficient hydrogen evolution reaction
Recently, there has been a rising demand for hybrid catalysts with heterojunctions between
two catalytic materials. In particular, hybrid materials based on Pt and transition metal …
two catalytic materials. In particular, hybrid materials based on Pt and transition metal …
Exploring the high-entropy oxide composition space: Insights through comparing experimental with theoretical models for the oxygen evolution reaction
The oxygen evolution reaction (OER) is key for the transition to a hydrogen-based energy
economy. The observed activity of the OER catalysts arises from the combined effects of …
economy. The observed activity of the OER catalysts arises from the combined effects of …
Interface engineering of NiMoSx heterostructure nanorods for efficient oxygen evolution reaction
X Mao, PK Shen - Journal of Colloid and Interface Science, 2022 - Elsevier
The development of electrocatalyst with efficient and stability for water oxidation is the key to
enhance the efficiency of water electrolysis. Interface engineering can modify the local …
enhance the efficiency of water electrolysis. Interface engineering can modify the local …
Grain Boundary-Derived Local Amorphization Enhances Acidic OER
IrO x of the amorphous phase has long been recognized to exhibit higher catalytic activity
than crystalline analogues toward oxygen evolution reaction (OER) but always at the …
than crystalline analogues toward oxygen evolution reaction (OER) but always at the …