BASF

Last updated January 31, 2026

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Three-dimensional pore architecture synthesis: BASFRecent Research Landscape

Inconsistent interfacial contact in electrolyzer stacks leads to high ohmic losses and gas crossover. Precise control over the lamination and porosity of conductive sheets ensures uniform current distribution and efficient mass transport.

What technical problems is BASF addressing in Three-dimensional pore architecture synthesis?

Inadequate structural wall insulation

(5)evidences

External weather elements penetrate building envelopes causing structural decay. Preventing water ingress ensures long-term integrity of vertical assemblies.

Inconsistent pore network connectivity

(3)evidences

Inefficient movement of gases and electrons across porous layers leads to significant energy losses in electrolyzers. Reducing this resistance improves overall electrochemical conversion efficiency.

Cryogenic thermal stress fracture

(3)evidences

Extreme temperature gradients during filling or storage cause structural failure and material fatigue. Preventing these mechanical stresses ensures the integrity of high-density energy storage systems.