Polymer electrolyte membrane (PEM) electrolyzers are electrochemical energy-conversion devices that convert electricity into hydrogen fuel at high efficiencies. The interface between the porous transport layer (PTL) and catalyst layer is of interest from a transport perspective, as this interface is rough, reducing contact between the layers. Electrons, protons, water and oxygen have to simultaneously meet at this interface and there is a need to understand the optimal morphology. In this study we use operando X-ray computed tomography (CT) and X-ray radiography to visualize the operation of PEM electrolyzers under two current densities: 500 and 800 mA cm-2. First, we compare the performance of catalyst-coated membrane (CCM) electrolyzers w...
The interface between the catalyst layer (CL) and the micro porous layer (MPL) in proton exchange me...
Among different methods available for the estimation of the transport properties of porous transport...
In the first paper of this series, the bulk, surface and transport properties of porous transport la...
The growing demand for energy and rising climate concerns call for an urgent need to decarbonize the...
The porous transport layer (PTL) in polymer electrolyte membrane water electrolysers (PEMWEs) has th...
The design of a porous transport layer (PTL) that exhibits effective two-phase transport characteris...
Interfacial and bulk properties between the catalyst layer and the porous transport layer (PTL) rest...
Finding the optimum structure in porous transport electrodes (PTEs) for proton exchange membrane wat...
Hydrogen gas is a good candidate to replace traditional, carbon-based energy carriers; it is easily ...
A systematic analysis, both experimental and model-assisted, has been performed over three main conf...
Abstract Interfacial and bulk properties between the catalyst layer and the porous transport layer (...
Interfaces between the different layers in proton exchange membrane fuel cells are expected to influ...
A systematic analysis, both experimental and model-assisted, has been performed over three main conf...
Development of cost-effective porous transport layers (PTLs) for polymer electrolyte membrane (PEM) ...
Widespread application of polymer electrolyte membrane fuel cells (PEMFC) and water electrolyzers (P...
The interface between the catalyst layer (CL) and the micro porous layer (MPL) in proton exchange me...
Among different methods available for the estimation of the transport properties of porous transport...
In the first paper of this series, the bulk, surface and transport properties of porous transport la...
The growing demand for energy and rising climate concerns call for an urgent need to decarbonize the...
The porous transport layer (PTL) in polymer electrolyte membrane water electrolysers (PEMWEs) has th...
The design of a porous transport layer (PTL) that exhibits effective two-phase transport characteris...
Interfacial and bulk properties between the catalyst layer and the porous transport layer (PTL) rest...
Finding the optimum structure in porous transport electrodes (PTEs) for proton exchange membrane wat...
Hydrogen gas is a good candidate to replace traditional, carbon-based energy carriers; it is easily ...
A systematic analysis, both experimental and model-assisted, has been performed over three main conf...
Abstract Interfacial and bulk properties between the catalyst layer and the porous transport layer (...
Interfaces between the different layers in proton exchange membrane fuel cells are expected to influ...
A systematic analysis, both experimental and model-assisted, has been performed over three main conf...
Development of cost-effective porous transport layers (PTLs) for polymer electrolyte membrane (PEM) ...
Widespread application of polymer electrolyte membrane fuel cells (PEMFC) and water electrolyzers (P...
The interface between the catalyst layer (CL) and the micro porous layer (MPL) in proton exchange me...
Among different methods available for the estimation of the transport properties of porous transport...
In the first paper of this series, the bulk, surface and transport properties of porous transport la...