High-Purity
PEM Stack,
On-Site Generation & R&D Platform
U-Hydrogen builds on its U-Cell platform and PEM stack technology to provide industrial on-site hydrogen generation, hydrogen wellness OEM/ODM solutions, and PEM / AEM electrolyzer testing and system integration services.
Complete capabilities from PEM stack to system integration
U-Hydrogen integrates electrolyzer stack technology, modular design, on-site hydrogen systems, and testing platforms to support brand owners, industrial users, and R&D teams in building reliable hydrogen applications.
U-Cell
PEM Stack
Self-developed PEM stack series for hydrogen wellness devices, OEM/ODM modules, and small-to-mid scale hydrogen systems.
Learn more →Industrial
On-Site Hydrogen
High-purity hydrogen generated on demand to reduce cylinder supply, transportation, and on-site interruption risks.
View solutions →Testing
Platform
PEM/AEM electrolyzer testing platforms, customized test systems, and third-party testing support.
Testing services →Hydrogen Wellness
OEM/ODM
PEM-based technology support for hydrogen inhalation devices, hydrogen water systems, and branded product development.
Partnership model →Electrolyzer stack technology for diverse hydrogen applications
From hydrogen wellness devices to industrial on-site hydrogen generation, U-Hydrogen helps customers build stable, scalable, and customizable hydrogen supply solutions based on its self-developed stack and system integration capabilities.
We also provide PEM / AEM R&D testing platforms and testing services to support development validation across electrolyzer materials, modules, systems, and applications.
ELECTROLYSIS
Applications from hydrogen wellness to industrial processes
With stack and system integration capabilities, U-Hydrogen supports hydrogen generation needs at different scales and brings hydrogen supply closer to the point of use.
Planning a hydrogen system, OEM/ODM project, or R&D testing collaboration?
Share your application requirements with U-Hydrogen. We can help evaluate a suitable solution based on flow rate, purity, module size, and integration conditions.
