Advanced membrane‐based electrode engineering toward efficient and durable water electrolysis and cost‐effective seawater electrolysis in membrane electrolyzers
Researchers have been seeking for the most technically‐economical water electrolysis
technology for entering the next‐stage of industrial amplification for large‐scale green …
technology for entering the next‐stage of industrial amplification for large‐scale green …
Recent progress in in-situ visualization of electrochemical reactions in electrochemical energy devices
A growing body of evidence indicates that bubble dynamics are crucial performance-limiting
factors on electrochemical reactions and energy conversion efficiencies in both half-cell and …
factors on electrochemical reactions and energy conversion efficiencies in both half-cell and …
Tuning Catalyst Activation and Utilization Via Controlled Electrode Patterning for Low‐Loading and High‐Efficiency Water Electrolyzers
An anode electrode concept of thin catalyst‐coated liquid/gas diffusion layers (CCLGDLs),
by integrating Ir catalysts with Ti thin tunable LGDLs with facile electroplating in proton …
by integrating Ir catalysts with Ti thin tunable LGDLs with facile electroplating in proton …
Nanoporous iridium nanosheets for polymer electrolyte membrane electrolysis
The growth of the hydrogen economy is predicated on advancements in electrochemical
energy technologies, with water electrolysis as a key component to the technological …
energy technologies, with water electrolysis as a key component to the technological …
High-speed characterization of two-phase flow and bubble dynamics in titanium felt porous media for hydrogen production
Bubble dynamics and two-phase flow phenomena are closely related to the performance of
proton exchange membrane electrolyzer cells (PEMECs). This paper reports an in-situ study …
proton exchange membrane electrolyzer cells (PEMECs). This paper reports an in-situ study …
Filling the gaps on the relation between electronic conductivity and catalysis of electrocatalysts for water splitting using computational modelling
MC Toroker - Current Opinion in Electrochemistry, 2023 - Elsevier
The electronic conductivity of the electrocatalyst for electrochemical water splitting reaction
is critical as it involves the necessary step of charge carrier transport through the …
is critical as it involves the necessary step of charge carrier transport through the …
Flexible electrode based on PES/GO mixed matrix woven membrane for efficient photoelectrochemical water splitting application
We introduced, for the first time, a membrane composed of nanostructured self-polyether
sulphone (PES) filled with graphene oxide (GO) applied to photoelectrochemical (PEC) …
sulphone (PES) filled with graphene oxide (GO) applied to photoelectrochemical (PEC) …
Identification of the electrical connection in the catalyst layer of the polymer electrolyte membrane water electrolyzer
Mechanical deterioration of the catalyst layer (CL) in contact with the porous transport layer
(PTL) can disconnect it from the electrical network and deactivate it during proton exchange …
(PTL) can disconnect it from the electrical network and deactivate it during proton exchange …
A simple convertible electrolyzer in membraneless and membrane-based modes for understanding water splitting mechanism
State-of-the-art membrane-based electrolyzers such as proton exchange membrane
electrolyzer cells, are costly, susceptible to degradation, and time-consuming for electrode …
electrolyzer cells, are costly, susceptible to degradation, and time-consuming for electrode …
2D bifunctional tungsten disulfide-embedded UiO-66 (WS 2@ UiO-66) as a highly active electrocatalyst for water splitting
Effective water-splitting electrocatalysts provide great potential for the production of
hydrogen as fuel in renewable and sustainable energy devices. Electrocatalysts become the …
hydrogen as fuel in renewable and sustainable energy devices. Electrocatalysts become the …