Beiersdorf

Last updated January 31, 2026

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Glycerol-stabilized cyclomethicone-free emulsion architecture: BeiersdorfRecent Research Landscape

Thermodynamic instability between immiscible phases leads to phase separation and product failure. Engineering the interfacial boundary layer stabilizes the mixture to ensure formulation consistency.

What technical problems is Beiersdorf addressing in Glycerol-stabilized cyclomethicone-free emulsion architecture?

High formulation foam levels

(6)evidences

High surfactant concentrations and specific polyol ratios often lead to unwanted aeration during processing and application. Reducing foam improves product density consistency and sensory performance.

Emulsion instability without cyclomethicone

(2)evidences

Incompatibility between non-silicone oils and aqueous phases leads to emulsion breakdown. Resolving this ensures long-term structural integrity in cyclomethicone-free formulations.

Emulsion instability without cyclomethicone

(1)evidences

Formulation instability and sensory degradation when removing cyclomethicone. Eliminating restricted volatile carriers while maintaining emulsion integrity and skin feel.