Iridium‐based catalysts for solid polymer electrolyte electrocatalytic water splitting
C Wang, F Lan, Z He, X Xie, Y Zhao, H Hou… - …, 2019 - Wiley Online Library
Chemical energy conversion/storage through water splitting for hydrogen production has
been recognized as the ideal solution to the transient nature of renewable energy sources …
been recognized as the ideal solution to the transient nature of renewable energy sources …
Iridium oxide fabrication and application: A review
H Jang, J Lee - Journal of Energy Chemistry, 2020 - Elsevier
Despite the scarcity and cost of iridium oxide, it is still the material of choice in numerous
fields of science and applications, including capacitors, electrochromism, sensors, and …
fields of science and applications, including capacitors, electrochromism, sensors, and …
Iridium oxide for the oxygen evolution reaction: correlation between particle size, morphology, and the surface hydroxo layer from operando XAS
A current challenge faced in water electrolysis is the development of structure–activity
relationships for understanding and improving IrOx-based catalysts for the oxygen evolution …
relationships for understanding and improving IrOx-based catalysts for the oxygen evolution …
IrOx core-shell nanocatalysts for cost-and energy-efficient electrochemical water splitting
A family of dealloyed metal–oxide hybrid (M1M2@ M1Ox) core@ shell nanoparticle
catalysts is demonstrated to provide substantial advances toward more efficient and less …
catalysts is demonstrated to provide substantial advances toward more efficient and less …
Highly active and stable iridium pyrochlores for oxygen evolution reaction
Proton exchange membrane water electrolysis (PEMWE) is a promising technology for
electricity-to-fuel conversion which allows for direct production of hydrogen from water. One …
electricity-to-fuel conversion which allows for direct production of hydrogen from water. One …
Self-assembled IrO 2 nanoparticles on a DNA scaffold with enhanced catalytic and oxygen evolution reaction (OER) activities
Self-assembled IrO2 nanoparticles (NPs) of two distinct chain-like morphologies were
successfully synthesized on a DNA scaffold at room temperature by the reduction of a …
successfully synthesized on a DNA scaffold at room temperature by the reduction of a …
Synthesis and electrochemical analysis of novel IrO2 nanoparticle catalysts supported on carbon nanotube for oxygen evolution reaction
In this paper, we report synthesis of novel nanoparticle catalyst of iridium oxide supported on
carbon nanotube (IrO 2/CNT) and characterization of activity and durability for oxygen …
carbon nanotube (IrO 2/CNT) and characterization of activity and durability for oxygen …
Investigation of Mesoporous Niobium-Doped TiO2 as an Oxygen Evolution Catalyst Support in an SPE Water Electrolyzer
C Hao, H Lv, C Mi, Y Song, J Ma - ACS Sustainable Chemistry & …, 2016 - ACS Publications
Titania doped by niobium was successfully synthesized via a modified evaporation-induced
self-assembly method (EISA) as a support of IrO2 for a solid polymer electrolyte water …
self-assembly method (EISA) as a support of IrO2 for a solid polymer electrolyte water …
Boron-doped graphene as electrocatalytic support for iridium oxide for oxygen evolution reaction
The present work details the development of IrO2 nanoparticles (nps) supported on B-doped
reduced graphene oxide as an oxygen evolution reaction (OER) electrocatalyst for …
reduced graphene oxide as an oxygen evolution reaction (OER) electrocatalyst for …
Review of oxide coated catalytic titanium anodes performance for metal electrowinning
W Zhang, E Ghali, G Houlachi - Hydrometallurgy, 2017 - Elsevier
Conventional lead alloys are widely used in the zinc industry, in spite of their high
overpotential and Pb contamination of the deposit during zinc electrowinning. The Oxide …
overpotential and Pb contamination of the deposit during zinc electrowinning. The Oxide …