K18 - Professional molecular repair hair MIST | 300 ml.
Bestel voor 10 uur op
Product details
- Brand
- K18
- Capacity
- 300ml
- Product type
- Medications
- ean13
- 858511001463
More information
K18 MOLECULAR REPAIR HAIR MIST is an innovative hair repair treatment that does not require rinsing and brings spectacular results in just 4 minutes. Thanks to the patented K18Peptide, a biomimetic peptide that mimics the structure of healthy hair, the treatment effectively repairs damaged hair by rebuilding broken keratin chains.
• Keratin Fiber Repair: K18Peptide, the key ingredient of the product, precisely penetrates the hair structure, rebuilding broken keratin chains. This biomimetic peptide works at the molecular level, restoring hair's natural strength and elasticity.
• Strengthen and Protect: The treatment strengthens the hair, making it more resistant to future damage. Regular use makes the hair stronger, smoother and shinier.
• Effects in 4 Minutes: It only takes 4 minutes to see visible results. The product is perfect for people who need quick and effective hair regeneration.
• No Rinse: K18 MOLECULAR REPAIR HAIR MIST is a leave-in treatment, which means it is convenient to use and can be used every day or before styling.
K18 MOLECULAR REPAIR HAIR MIST is an excellent choice for people who want to quickly restore the healthy appearance of their hair, strengthening it and protecting it against further damage.
How to use: Spray evenly on damp or dry hair, especially the ends and the most damaged areas. Do not rinse. Let the treatment work for 4 minutes and then proceed to styling or daily care.
Result: Strengthened, nourished and maximally moisturized strands after the first use.
Discover the entire series of hair care cosmetics to professionally perform multi-stage regeneration of damaged hair - all in the comfort of your home!
K18 Hair is a completely new category of hair products using biomimetic care that reverses the damage caused by bleaching, coloring and heat styling, while rebuilding individual hair fibers at the molecular level.