Technical Specifications and Formulation Guidelines for LipidSoft™ Dry II (Dicaprylyl Carbonate)
Asked by: Anonymous
On: February 12, 2026
Product Type:
Cosmetics
Question
I would like to inquire about the technical specifications of LipidSoft™ Dry II (Dicaprylyl Carbonate) for use in the oil phase of a cream formulation:
- Heat Resistance and Evaporation: What is its boiling point or the maximum temperature it can withstand during the melting process in the
oil phase? Does it evaporate? - HLB Value: What is its
Required HLBfor calculating theTotal required HLBof a formulation? - Stability: What is its stability profile?
- Incompatibility: Are there any known ingredients that are incompatible with it?
- Additional Information: Are there any other important details or tips useful for formulation development?
Answer
LipidSoft™ Dry II (Dicaprylyl Carbonate) is a high-performance emollient known for its dry, non-greasy feel and excellent spreadability. Here is the technical information for your formulation:
1. Heat Resistance and Evaporation
- Heat Resistance: LipidSoft™ Dry II is highly heat-stable. It can be heated in the oil phase to temperatures typical for emulsion making (70°C - 80°C) without degrading.
- Evaporation: Unlike volatile silicones (like Cyclomethicone), Dicaprylyl Carbonate is non-volatile. It does not evaporate at room temperature or during the heating process of a standard emulsion. It remains on the skin to provide a lasting silky feel.
2. Required HLB
- The Required HLB for LipidSoft™ Dry II (Dicaprylyl Carbonate) is approximately 11.0. You can use this value to calculate the total required HLB of your oil phase to select the appropriate emulsifiers.
3. Stability
- Oxidative Stability: It is highly resistant to oxidation compared to natural vegetable oils, which helps extend the shelf life of the formulation and prevents rancidity.
- pH Stability: It is stable over a wide pH range, typically from pH 3.0 to 12.0, making it suitable for a variety of products from acidic AHAs to alkaline hair removal creams.
4. Incompatibility
- There are no known significant incompatibilities with common cosmetic ingredients. It is a chemically inert ester that works well with most active ingredients, sunscreens, and pigments.
5. Useful Formulation Tips
- Pigment Wetting: It has excellent ability to disperse pigments and UV filters (like Titanium Dioxide or Zinc Oxide), making it an ideal choice for sunscreens and color cosmetics.
- Solubility: It is compatible with many cosmetic oils and can help improve the solubility of crystalline UV filters. It is also compatible with some silicones.
- Sensory Profile: It is often used as a natural-derived alternative to light silicones to reduce the greasiness of heavy oils or waxes in a formula.
Usage Rate: 1-100% (typically 2-10% in creams and lotions).
Mixing Method: Mix in the oil phase (Oil-Phase) and heat as needed.
