Hydrogen synthesis stands as a pivotal method in the pursuit of a sustainable energy future. Among the diverse techniques employed, PEM electrolysis proves as a particularly efficient pathway for clean hydrogen generation. This chemical process employs an electrolyte membrane to split water into hydrogen and oxygen, driven by an electrical current.

PEM electrolyzers have emerged as a leading technology for the sustainable production of hydrogen. These devices utilize a proton exchange membrane (PEM) to divide water into its constituent elements: oxygen and hydrogen. The PEM acts as a conductive barrier, allowing protons to travel between while blocking the passage of electrons. This system re

Proton exchange membrane decomposition, or PEM electrolysis, presents a sustainable pathway for generating green hydrogen. This method leverages an electrolyte membrane to separate water into its constituent elements: hydrogen and oxygen. The process is driven by an electric current, which can be sourced from renewable energy systems, making it a t