Dyson

Last updated January 31, 2026

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Anode structural architecture engineering: DysonRecent Research Landscape

Uncontrolled interfacial reactions at the anode-electrolyte boundary lead to rapid capacity fade and safety risks. These methods engineer the working surface chemistry to stabilize ion transport and extend cycle life.

What technical problems is Dyson addressing in Anode structural architecture engineering?

Low electrode energy density

(19)evidences

Poor physical connectivity between solid-state electrolytes and anode surfaces leads to high impedance and cell failure. Maintaining intimate contact ensures stable ion transport and prevents delamination during cycling.

Inconsistent active material distribution

(7)evidences

Non-uniform precursor mixtures lead to localized impedance variations and mechanical stress during cycling. Achieving a homogeneous composition prevents premature electrode failure and capacity loss.