With the deep integration of pure beauty, functional beauty and light luxury beauty, the market has set higher standards for the formula texture, usage experience and efficacy stability of smear-on facial masks and innovative functional masks. Many current mainstream facial mask products generally rely on traditional synthetic thickening stabilizers such as carbomer and xanthan gum. They have long-term formula shortcomings that are difficult to avoid: the transparent system is easy to become cloudy, and functional particles such as natural petals, essence beads, and plant scrubs are easy to settle and stratify, making the product attractive. At a discount; at the same time, traditional colloids are sticky and thick, have poor breathability, make the skin stuffy on the face, are easy to rub mud, and leave a sticky feeling. Moreover, the moisturizing only stays on the surface for instant hydration, and the water-locking endurance is insufficient. It cannot meet the four core needs of high-definition texture, refreshing skin feel, long-lasting moisturizing, and stable effects. Aiming at the pain points of industry formulations, nanocellulose (CNF) derived from natural plants has become a new generation to replace traditional chemical colloids with its unique nano-three-dimensional network structure and excellent thixotropic rheological properties.

Under the industry wave of pure beauty, functional skin care, and sustainable consumption, the daily chemical industry is bidding farewell to traditional chemical raw materials and is moving towards a comprehensive iteration in the direction of natural safety, minimalist formula, high efficacy, and green biodegradability. The raw materials commonly used in traditional daily chemicals, such as synthetic thickeners, petroleum-based emulsifiers, plastic microbeads, and chemical film-forming resins, commonly have pain points such as high allergy risk, sticky skin feel, poor environmental compliance, and weak formula stability. It is difficult to meet the current high-end skin care needs of consumers and global plastic restrictions and ESG compliance standards. As a new pure natural biomass material derived from plants and microorganisms, nanocellulose has broken through the performance bottleneck of traditional daily chemical raw materials and has become a core innovative raw material in the field of cosmetics and care by virtue of its unique nano-scale three-dimensional network structure, excellent biocompatibility and multi-functional formula adaptability. At present, the nanocellulose used in mainstream applications is divided into three categories: plant nanofibrils (CNF), nanocellulose crystals

Under the wave of consumption upgrades for pure beauty, functional skin care, and gentle repair, facial mask base materials have long bid farewell to the single era of traditional non-woven fabrics and silk fabrics. Consumers have put forward higher requirements for the skin feel, fit, safety, and nutrient penetration efficiency of masks. Bacterial cellulose (BNC, Bacterial Nanocellulose) is a pure natural nano-biomaterial derived from microbial fermentation. With its unique three-dimensional nano-network structure, medical-grade safety properties and ultimate skin care adaptability, it has become the core base material of high-end repair masks, medical beauty dressings, and functional essence masks, redefining the quality standards of light luxury masks. As a scientific and technological enterprise deeply involved in the field of nano-biomaterials, Nanjing Tianlu Nano Technology Co., Ltd. has long been focusing on the research and development, green preparation and industrial application of nanocellulose series materials. Relying on solid core technology accumulation, it continues to optimize the BNC substrate process and application performance, providing high-end cosmetics and medical beauty repair services.