Bubble evolution and transport in PEM water electrolysis: Mechanism, impact, and management
Proton exchange membrane water electrolysis (PEMWE), as a promising technology for
hydrogen production from renewable energy sources, has great potential for industrial …
hydrogen production from renewable energy sources, has great potential for industrial …
Pore-scale modeling of complex transport phenomena in porous media
Porous media play important roles in a wide range of scientific and engineering problems.
Recently, with their increasing application in energy conversion and storage devices, such …
Recently, with their increasing application in energy conversion and storage devices, such …
Bridging multiscale characterization technologies and digital modeling to evaluate lithium battery full lifecycle
The safety, durability and power density of lithium‐ion batteries (LIBs) are currently
inadequate to satisfy the continuously growing demand of the emerging battery markets …
inadequate to satisfy the continuously growing demand of the emerging battery markets …
[HTML][HTML] Cathode porosity is a missing key parameter to optimize lithium-sulfur battery energy density
While high sulfur loading has been pursued as a key parameter to build realistic high-
energy lithium-sulfur batteries, less attention has been paid to the cathode porosity, which is …
energy lithium-sulfur batteries, less attention has been paid to the cathode porosity, which is …
Guiding the design of heterogeneous electrode microstructures for Li‐ion batteries: microscopic imaging, predictive modeling, and machine learning
Electrochemical and mechanical properties of lithium‐ion battery materials are heavily
dependent on their 3D microstructure characteristics. A quantitative understanding of the …
dependent on their 3D microstructure characteristics. A quantitative understanding of the …
Microbial electrolysis cell (MEC): Strengths, weaknesses and research needs from electrochemical engineering standpoint
R Rousseau, L Etcheverry, E Roubaud, R Basséguy… - Applied Energy, 2020 - Elsevier
Microbial electrolysis cells (MECs) produce hydrogen at the cathode associated with the
oxidation of organic matter at the anode. This technology can produce hydrogen by …
oxidation of organic matter at the anode. This technology can produce hydrogen by …
[HTML][HTML] A review of physics-based and data-driven models for real-time control of polymer electrolyte membrane fuel cells
The real-time model-based control of polymer electrolyte membrane (PEM) fuel cells
requires a computationally efficient and sufficiently accurate model to predict the transient …
requires a computationally efficient and sufficiently accurate model to predict the transient …
[HTML][HTML] Continuum scale modelling and complementary experimentation of solid oxide cells
Solid oxide cells are an exciting technology for energy conversion. Fuel cells, based on solid
oxide technology, convert hydrogen or hydrogen-rich fuels into electrical energy, with …
oxide technology, convert hydrogen or hydrogen-rich fuels into electrical energy, with …
Progress and perspective of the cathode/electrolyte interface construction in all‐solid‐state lithium batteries
Security risks of flammability and explosion represent major problems with the use of
conventional lithium rechargeable batteries using a liquid electrolyte. The application of …
conventional lithium rechargeable batteries using a liquid electrolyte. The application of …
[HTML][HTML] Understanding the role of the porous electrode microstructure in redox flow battery performance using an experimentally validated 3D pore-scale lattice …
The porous structure of the electrodes in redox flow batteries (RFBs) plays a critical role in
their performance. We develop a framework for understanding the coupled transport and …
their performance. We develop a framework for understanding the coupled transport and …