Rose Hyaluronic Serum
Rose Hyaluronic Serum infuses hyaluronic acid—a natural and powerful moisture-binding substance—into organic rose water to create a super hydrating serum.
Rose Hyaluronic Serum: The Ultimate Hydrating Machine!
|Anti-aging Benefits||Skin Types|
Simple, but super effective, serum containing nothing but the highest quality anti-aging and anti-pollutant ingredients with no added water.
Organic Rose Water. Soothes, hydrates, and refreshes the skin as it gives a feeling of happiness and relaxation.
Hyaluronic Acid. Hydrates and helps to retain moisture to make the skin look and feel soft and supple.
Marine Pine Bark. Protects the skin against free radical damage while reducing all signs of aging and balancing the skin’s sebum level.
Rosa Damascena (Rose) Flower Water*, Sodium Hyaluronate (Hyaluronic Acid), Glycerin*, Sodium Levulinate, Pinus Pinaster (Marine Pine) Bark Extract, Sodium Anisate, Citric Acid
* Certified Organic
How to Apply
Gently press 2-3 drops into face and neck after skin is cleansed and toned to boost the skin’s hydration.
Follow with your favorite moisturizer.
Get ready for compliments on your skin’s visible vibrance.
Use morning and night.
Shake before using in case some of the hyaluronic acid has settled on the bottom.
Frequently Asked Questions
Do you really not use any water in this product whatsoever?
How does hyaluronic acid work?
Why does my skin not feel moisturized after applying Rose Hyaluronic Serum?
This serum is designed to address skin thirst and hydration by boosting and restoring the skin’s water content for a plump and vibrant look. It is not a moisturizer. It is intended to be applied before oil serums or moisturizers. Apply an oil serum or a moisturizer to seal in the skin’s water content.
How much hyaluronic acid is in this product?
What is the molecular weight of the hyaluronic acid?
Our product contains both Low Molecular Weight (LMW) Hyaluronic Acid for deep absorption and plumping effect and High Molecular Weight (HMW) Hyaluronic Acid that acts as a protective surface barrier against water loss and dehydration.