1.SPF 50+ PA+++: High-level sun protection against both UVA and UVB rays. Silicone-Based Formula: Provides a silky, matte finish, perfect for oily and acne-prone skin.

2. Non-Greasy & Lightweight: Absorbs quickly without leaving a sticky or oily residue. Water-Resistant: Long-lasting protection even in humid conditions or during physical activity.

3. Non-Comedogenic: Won’t clog pores, making it suitable for sensitive and acne-prone skin. Free from Harmful Chemicals: No parabens, fragrances, or irritants, reducing the risk of skin irritation. Dermatologist-Recommended: Ideal for daily use on all skin types, especially sensitive and oily skin.

4.

UV Doux Silicone Sunscreen Gel (50g) is a dermatologist-recommended, broad-spectrum sunscreen designed to provide SPF 50+ PA+++ protection against harmful UVA and UVB rays. Formulated with a silicone base, this gel offers a smooth, matte finish that feels lightweight on the skin, making it ideal for everyday use, especially for oily and acne-prone skin types. The non-comedogenic and water-resistant formula ensures long-lasting protection without clogging pores or leaving a greasy residue. It is also free from parabens, fragrances, and irritants, making it suitable for sensitive skin. Perfect for those seeking sun protection with a non-greasy texture and a comfortable feel.

Ingredients :

Dimethicone – A silicone-based compound that provides a smooth, matte texture and acts as a barrier on the skin to lock in moisture.
Zinc Oxide – A physical sunscreen agent that offers broad-spectrum protection by reflecting UVA and UVB rays.
Octyl Methoxycinnamate (OMC) – A chemical UVB filter that absorbs harmful rays and prevents sun damage.
Titanium Dioxide – Another physical sunscreen agent that works by reflecting UV radiation.
Cyclopentasiloxane – A silicone compound that helps in spreading the sunscreen evenly and gives a silky, non-greasy finish.
Vitamin E (Tocopheryl Acetate) – An antioxidant that nourishes the skin and provides additional protection against free radicals generated by UV exposure.