Lotus Leaf Exosome 

Aloe exosomes are stable, nano-sized vesicles (~165 nm) derived from Aloe Vera, designed for efficient skin delivery of bioactive compounds that promote wound healing, reduce inflammation and redness, enhance hydration and barrier strength, and are gentle enough for all skin types—offering a scientifically supported, biocompatible solution rooted in both modern research and historical medicinal use.

Zea Mays Silk Exosome features exosomes derived from Zea Mays (Corn) silk extract, highlighting its sustainable sourcing and global recognition. It is presented for its anti-aging, antioxidant, moisturizing, and skin barrier strengthening benefits, attributed to the various bioactive compounds in corn silk (like polysaccharides and flavonoids), potentially enhanced by exosome delivery.

Tannin Exosome features exosomes containing tannins derived from Diospyros Kaki (Persimmon) leaf extract and Camellia Sinensis (Green Tea) leaf extract. It is presented for its anti-aging, moisturizing, antioxidant, and pore tightening benefits, attributed to the astringent and antioxidant properties of tannins, potentially enhanced by exosome delivery.

Pine Leaf Exosome features exosomes derived from Pinus Densiflora (Japanese Red Pine) leaf extract. It is presented for its antioxidant, anti-aging, anti-inflammatory, and moisturizing benefits, attributed to the various bioactive compounds in pine needles (like polyphenols and terpenoids), potentially enhanced by exosome delivery. The recommended dosage is 1% (1×10^9 particles/ml). In-vitro studies suggest efficacy in exhibiting antioxidant activity, promoting collagen synthesis, reducing inflammation, and improving skin hydration.

Panax Ginseng Berry Exosome features exosomes derived from Panax Ginseng berry extract, highlighting the potent antioxidants found in the fruit. It is presented for its anti-aging, antioxidant, moisturizing, and skin revitalizing benefits, attributed to the various ginsenosides and other bioactive compounds in ginseng berries, potentially enhanced by exosome delivery. In-vitro studies suggest efficacy in promoting collagen synthesis, exhibiting strong antioxidant activity, improving skin hydration, and enhancing skin elasticity.

Flavonoid Exosome features exosomes containing a blend of flavonoids derived from Sophora Japonica flower extract, Artemisia Argyi leaf extract, and Polygonum Fagopyrum (Buckwheat) seed extract. It is presented for its brightening, antioxidant, and anti-inflammatory benefits, attributed to the synergistic effects of these flavonoid-rich botanical extracts, potentially enhanced by exosome delivery.

Damask Rose Exosome features exosomes derived from Rosa Damascena (Damask Rose) flower extract, highlighting its historical use and beauty-enhancing properties. It is presented for its brightening, anti-aging, moisturizing, and anti-inflammatory benefits, attributed to the various bioactive compounds in Damask Rose (like flavonoids and essential oils), potentially enhanced by exosome delivery. The recommended

Rosemary Exosome features exosomes derived from Rosmarinus Officinalis (Rosemary) leaf extract, highlighting its historical use and natural antioxidant properties. It is presented for its antioxidant, anti-inflammatory, soothing, and potential hair growth promoting benefits, attributed to the various bioactive compounds in Rosemary (like rosmarinic acid and other antioxidants), potentially enhanced by exosome delivery. The recommended dosage is 1% (1×10^9 particles/ml).

Paeonia Exosome features exosomes derived from Paeonia Albiflora (Peony) root extract, highlighting the resilience of the flower. It is presented for its skin brightening, antioxidant, anti-inflammatory, and moisturizing benefits, attributed to the various bioactive compounds in Peony root (like paeoniflorin and other polyphenols), potentially enhanced by exosome delivery. In-vitro studies suggest efficacy in inhibiting melanin production, exhibiting antioxidant activity, reducing inflammation, and improving skin hydration.

Houttuynia Cordata Exosome features exosomes derived from Houttuynia Cordata extract. It is highlighted for its skin soothing, anti-inflammatory, antioxidant, and sebum control benefits, attributed to the various bioactive compounds in Houttuynia Cordata (like flavonoids and polyphenols), potentially enhanced by exosome delivery. In-vitro studies suggest efficacy in reducing inflammation, exhibiting antioxidant activity, and controlling sebum production.

Ginsenoside Exosome features exosomes derived from Panax Ginseng root extract, specifically highlighting the delivery of ginsenosides. It is presented for its anti-aging, skin revitalizing, moisturizing, skin barrier strengthening, and antioxidant benefits, attributed to the various ginsenosides and other bioactive compounds found in ginseng, enhanced by exosome delivery. In-vitro studies suggest efficacy in promoting collagen synthesis, moisturizing, improving skin elasticity, and exhibiting antioxidant activity.

Eucalyptus Exosome features exosomes derived from Eucalyptus Globulus leaf extract. It is highlighted for its skin soothing, moisturizing, anti-inflammatory, skin barrier strengthening, and sebum control benefits, attributed to the active compounds within Eucalyptus (like tannins, flavonoids, and essential oils) and the potential enhanced delivery via exosomes. The product also demonstrates in-vitro efficacy in moisturizing, soothing, reducing sebum, strengthening the skin barrier, and showing antioxidant effects.

Centella Asiatica Exosome features exosomes derived from Centella Asiatica leaf extract, known for delivering enhanced skincare benefits. Rich in active compounds such as asiaticoside, madecassoside, asiatic acid, and madecassic acid, it offers powerful soothing, anti-redness, skin barrier strengthening, and anti-aging effects. Thanks to exosome technology, these actives are delivered more effectively. In-vitro studies show proven efficacy in reducing redness, calming the skin, reinforcing the barrier, and enhancing skin elasticity.

Cannabis Sativa Stem Exosome  is a cosmetic ingredient featuring exosomes derived from Cannabis Sativa stem extract. Characterized by a mean particle size of 159.1 nm and a Zeta potential of -40.12 mV, this ingredient is designed for anti-aging, skin soothing, anti-inflammatory, and antioxidant applications. The Cannabis Sativa stem extract is noted to be rich in saccharides, amino acids, and minerals, potentially activating anti-aging gene expression, protecting the skin barrier, and improving dryness. Importantly, the raw material has been confirmed to have no detectable levels of THC or CBD.

Camellia Exosome is an upcycled cosmetic product that captures the potent benefits of the Camellia Japonica flower through nanomaterials extracted from recycled petals. The camellia flower, sourced from the clean environment of Jeju Island, is highlighted for its resilience and richness in beneficial components like vitamins, tannins, amino acids, and unsaturated fatty acids. These contribute to improving skin tone, hydration, and protection against environmental stressors, potentially reducing wrinkles and signs of aging.

Black Tea Exosome  is a plant-derived cosmetic active composed of Water, Butylene Glycol, and Camellia Sinensis Leaf Vesicles,  for use in all cosmetic applications. It delivers powerful skin-brightening and anti-aging benefits by protecting against oxidative stress, improving skin tone, reducing dullness, and enhancing overall skin clarity and youthfulness. Rich in antioxidants and anti-inflammatory agents from black tea, it helps soothe the skin and fortify it against environmental damage. Exosome analysis confirms its nano-size structure via TEM imaging, efficient cellular uptake, and thermodynamic stability (DSC, TGA).

Apple Exosome formulated with apple-derived extracellular vesicles, delivers abundant phytonutrients and antioxidants that promote skin regeneration, brighten dull skin, reduce pigmentation, and protect against environmental stress. It supports anti-aging by firming collagen types I and III, enhancing gene expression involved in skin repair, and improving skin barrier function. Validated by TEM imaging, cellular uptake assays, nanoparticle size analysis, and thermodynamic profiling, it provides scientifically backed efficacy for firming, wrinkle reduction, and overall skin rejuvenation.

intermediates are versatile materials for virtually all industrial silicone applications. They offer innovative and tailored solutions for a wide range of applications and requirements. When used in designing silicone elastomers, they enable higher or lower hardness materials, shiny or transparent surface structure and can improve physical properties such as modulus tear and elongation.

Silane is a chemical compound composed of silicon and hydrogen atoms. It is a colorless gas that is highly flammable and explosive in its pure form. Silane has a variety of uses in industrial and commercial sectors, including adhesives, sealants, and coatings.

Hydroxyl silicone oil is an organic silicone material with hydroxyl groups at both ends of its molecule, which is synthesized by the polymerization of siloxane monomers. It is also called hydroxyl terminated polydimethylsiloxane or OH polymer.
CFS-F(OH) is a colorless transparent liquid with excellent electrical insulation and resistance to high and low temperatures, high flash point and low solidification point. It can be used for a long time under the condition of -50C~+250C. It has low viscosity-temperature coefficient, high compression rate, low surface tension, good hydrophobicity and moisture resistance, chemical inertia and physiological inertia.

silicone rubber composition providing silicone rubber having excellent workability, sealing properties, etc., by adding a specific organopolysiloxane to a composition comprising an organopolysiloxane

Methyl phenyl silicone resins are synthesized with a converse hydrolysis-polycondensation method from methyl phenyl dichlorosilane, methyl trichlorosilane, and dimethyldichlorosilane. These resins have low molecular weight and high heat stability compared to other traditional resins.

Diphenyl Silicone Fluid is a clear, colorless and odorless Diphenyl‐Silicone Oil with a viscosity of 400cSt @ 25°C. It replaces methyl groups found in conventional PDMS Silicone oils with a high percentage of Diphenyl groups. In doing so, thermal stability and resistance to oxidation are significantly increased. DPDM‐400 provides long term stability at 250°C (open to air) and 300°C (closed to air). The fluid is further characterized by its high flash point, high dielectric strength, stability at extreme pressures, good heat capacity values, excellent lubricity and inertness to virtually all substrates.

Hydroxyl MethylVinyl Silicone Fluid can provide better mechanical properties better high temperature resistance.

Vinyl functional silicone fluids can be combined with silicon hydride containing fluids or resins to make silicone rubber. Silicone rubber cures by the following reaction which is catalyzed by transition metals:

Hydrogen Silicone Fluid polysiloxanes end-capped with trimethyl siloxy groups. Hydrogen Silicone Fluid are primarily used to treat powders to keep them dry, as an anti-caking material and are also highly water repellent.

Methoxy Silicone Fluid was specially developed for low-temperature applications, so it remains fluid even in environments of -65°C.

Dimethyl silicone, with chemical formula (C2H6OSi)n, is a widely used silicone polymer. It is also known as polydimethylsiloxane (PDMS) or dimethicone and dimethylpolysiloxane. PDMS is considered one of the most commonly used silicone polymers with applications ranging from use in cosmetic products to other industries such as paints since it acts as an excellent industrial lubricant.