Powered by advanced AI technology integrated with Big Data, the device combines a multi-spectrum lighting system (Normal, Polarized, UV) with a high-resolution 20MP camera to deliver in-depth analysis of 15 key skin indicators within minutes. It accurately detects underlying skin issues such as pigmentation, oiliness, acne-causing bacteria, and capillaries—supporting the development of personalized treatment plans that are both scientific and effective.

Applying next-generation CO2 Fractional Laser technology, this device uses a 10,600nm wavelength to create microscopic thermal zones on the skin, stimulating collagen regeneration and deep skin remodeling. With precise control over the depth and density of the laser beams, the device delivers outstanding results in treating acne scars, atrophic scars, and skin rejuvenation, while ensuring rapid recovery time.

Applies next-generation CO₂ laser technology (Glass Laser Emission System). The laser beams are divided into thousands of ultra-fine microbeams, capable of penetrating deeply and precisely while preserving healthy tissue between the treated areas. As a result, the skin is strongly stimulated to regenerate from within, minimizing surface damage and significantly shortening recovery time. This is an ideal technology for intensive treatments such as acne scar removal, skin rejuvenation, and safe, effective pigmentation improvement.

Utilizing Alexandrite laser technology with a 755nm wavelength—recognized as the gold standard for permanent hair removal across all skin types from Fitzpatrick I to VI—the ALEX 755 Hair Removal Machine is designed to optimize treatment effectiveness, ensure user safety, and minimize operational costs for spa owners, clinics, and high-end aesthetic centers.

Applying CO2 Fractional Laser technology with a 10,600nm wavelength, the SST-L25 precisely targets the dermis layer — where collagen and elastin are produced. Thanks to its ability to create ultra-fine, minimally invasive microthermal zones, this technology stimulates deep skin regeneration while preserving surrounding healthy tissue, significantly shortening recovery time.