Stabilizing zinc anodes for different configurations of rechargeable zinc-air batteries
Zinc-air batteries (ZABs) are a prospective energy storage technology that has attracted
increasing interest for their high energy density, cost benefits, and safety, as well as their …
increasing interest for their high energy density, cost benefits, and safety, as well as their …
Microfluidics for electrochemical energy conversion
Electrochemical energy conversion is an important supplement for storage and on-demand
use of renewable energy. In this regard, microfluidics offers prospects to raise the efficiency …
use of renewable energy. In this regard, microfluidics offers prospects to raise the efficiency …
Recent developments in membraneless electrolysis
Membraneless electrolyzers (MEs) are an exciting emerging technology for efficient
hydrogen production, chemical production, and carbon capture. Unlike conventional …
hydrogen production, chemical production, and carbon capture. Unlike conventional …
[HTML][HTML] A membrane-less electrolyzer with porous walls for high throughput and pure hydrogen production
Membrane-less electrolyzers utilize fluidic forces instead of solid barriers for the separation
of electrolysis gas products. These electrolyzers have low ionic resistance, a simple design …
of electrolysis gas products. These electrolyzers have low ionic resistance, a simple design …
Rapid detachment of hydrogen bubbles for electrolytic water splitting driven by combined effects of Marangoni force and the electrostatic repulsion
Electrolysis efficiency is significantly hindered by the bubbles on the electrode surface.
Therefore, understanding the bubble evolution process is vital to achieve faster detachment …
Therefore, understanding the bubble evolution process is vital to achieve faster detachment …
Enhancing hydrogen bubble release from a microelectrode through precise tuning of Marangoni forces with nonionic surfactant
Understanding and controlling hydrogen bubble growth and detachment during water
electrolysis is crucial for improving its efficiency. This study investigates bubble dynamics for …
electrolysis is crucial for improving its efficiency. This study investigates bubble dynamics for …
In Situ Observation and Electrical Signal Analysis of Different Bubble Detachment Modes on Microelectrode Surface
Z Duan, Q Xu, Y She, T Nie, X Luo… - Journal of The …, 2024 - iopscience.iop.org
The deactivation of the reaction surface caused by bubble covering is an important factor
that causes the decrease in the efficiency of water electrolysis. By combining an …
that causes the decrease in the efficiency of water electrolysis. By combining an …
[PDF][PDF] Membrane-less alkaline water electrolyzers: current state of research
P Hadikhani - osf.io
Alkaline water electrolysis systems have the potential to facilitate the transition toward
environmentally friendly energy storage in the form of hydrogen considering their …
environmentally friendly energy storage in the form of hydrogen considering their …
Investigating Bubble-Induced Overpotential, Current Non-Uniformity, and Gas Cross-over in Flow-based Water Electrolyzers: A Numerical Study
P Hadikhani - 2024 - researchsquare.com
The transition towards a sustainable energy landscape necessitates efficient and scalable
technologies for renewable energy storage. Water electrolysis, a process that converts …
technologies for renewable energy storage. Water electrolysis, a process that converts …
Multiphase flows in Microfluidic Reactors
P Hadikhani - 2020 - infoscience.epfl.ch
Hydrogen production through water electrolysis is a clean option for storing energy from
renewable sources. Low-cost hydrogen production requires efficient water electrolyzers that …
renewable sources. Low-cost hydrogen production requires efficient water electrolyzers that …