Bayer

Last updated January 31, 2026

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Interlayer spacer electrode architecture: BayerRecent Research Landscape

Interfacial resistance and mechanical delamination during high-speed coating reduce cell cycle life. These innovations control layer adhesion and thickness uniformity to ensure electrochemical stability.

What technical problems is Bayer addressing in Interlayer spacer electrode architecture?

Inefficient electrode material recovery

(25)evidences

Mechanical separation and poor adhesion between active materials and current collectors lead to electrode failure. Preventing this degradation ensures structural integrity and electrical continuity during cycling.

Electrolyte chemical instability

(17)evidences

Limited mobility of ions between electrodes restricts power density and cycle life. Optimizing salt and electrolyte interactions reduces internal resistance and prevents cell failure.

Low volumetric energy density

(12)evidences

Dense current collectors and electrode architectures restrict ion transport during high-rate cycling. Improving porosity and surface accessibility reduces internal resistance and prevents capacity fade.