Bayer

Last updated January 31, 2026

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Solid state electrolyte interface architecture: BayerRecent Research Landscape

Interfacial resistance and mechanical instability during assembly lead to high cell failure rates. These innovations standardize the structural integration of solid electrolytes and electrodes to ensure electrochemical contact.

What technical problems is Bayer addressing in Solid state electrolyte interface architecture?

Inefficient electrode material recovery

(26)evidences

Mechanical detachment of active materials from current collectors during manufacturing or cycling. Preventing delamination ensures structural integrity and consistent charge transfer across the interface.

Inconsistent cell manufacturing throughput

(20)evidences

Variabilities in the manufacturing process lead to structural defects and poor interfacial contact in solid-state cells. Standardizing production ensures reliable electrochemical performance and safety across large batches.

Inefficient high volume cell assembly

(19)evidences

Inconsistent production processes for complex multi-component electrochemical stacks. Streamlining assembly and integration reduces structural defects and unit cost.

Low volumetric energy density

(18)evidences

Inefficient spatial integration of solid-state components within cell and pack architectures. Maximizing active material density increases total energy storage capacity per unit volume.

Inadequate thermal management integration

(13)evidences

Environmental ingress and mechanical vulnerability of internal cell chemistry. Robust containment prevents electrolyte degradation and ensures structural integrity during operation.