Skincare for the Skin Obsessed
Our formulations are the key to skin repair and regeneration, designed to be used individually or mixed together for personalized emollience, hydration, and activity based on your skin needs.
Skincare for the Skin Obsessed
Our formulations are the key to skin repair and regeneration, designed to be used individually or mixed together for personalized emollience, hydration, and activity based on your skin needs.
We’ve formulated our products to reduce overall exposure to preservatives when used as a system: our cream products include the minimum amount of preservatives necessary to maintain a stable shelf life (as all water-based formulas require some sort of preservation system!), while our oil-serum requires none.
Give the gift of healthy skin
Share the breakthrough technology behind Sweet Chemistry’s evidence-based skincare with a digital gift card, delivered straight to their inbox.
This is a digital gift card. You will receive a code at the email address specified during checkout. Digital gift cards are redeemable on all purchases at sweetchemistry.com only. Gift cards cannot be redeemed at third-party vendors or retailers. Gift cards are valid for 9 years from the date of purchase. Digital gift card purchases are nonrefundable. Gift cards are transferrable; anyone with the code can redeem it. Lost or stolen gift cards cannot be replaced.
Natural vs. Synthetic Peptides. Current peptides on the market are synthetic, limiting their bioavailability to our skin. Matrikynes® are naturally derived from upcycled bone, allowing for dramatic dermal bioactivity. Pesticide Free. All botanical oils and extracts used are pesticide-free and smartly preserved to help avoid degradation of the skin’s microbiome. Each lot tested for microbiome-destroying pesticides. Color will vary due to the nature of botanical ingredients. Cruelty free. We use already-available safety data to avoid testing our ingredients or formulas on animals. Better for us, and our environment. Housed in airless glass to avoid preservative overload