BYD

Last updated February 1, 2026

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Non-aqueous electrolyte composition: BYDRecent Research Landscape

Unstable ion transport and interfacial degradation lead to rapid capacity fade and safety risks in high-energy cells. Precise control of additive ratios and solvent purity stabilizes the electrode-electrolyte interface to extend cycle life.

What technical problems is BYD addressing in Non-aqueous electrolyte composition?

Electrochemical instability at interfaces

(31)evidences

Standard non-aqueous electrolytes suffer from decomposition and poor interfacial compatibility under high-voltage or high-temperature conditions. Addressing this instability prevents capacity fade and safety hazards in energy storage systems.

Liquid electrolyte leakage and instability

(29)evidences

Standard liquid electrolytes are prone to leakage and combustion under mechanical or thermal stress. Transitioning to gel precursors and composite electrolytes addresses the safety hazards and structural instability of fluid components.

Electrolyte decomposition and thermal instability

(25)evidences

Premature or inconsistent release of chemical additives during battery operation leads to rapid degradation. Precise control over additive release prevents early electrolyte decomposition and extends cycle life.