In the field of high-end surface protection, we have long pursued an ideal state: endowing various substrates with surface properties that are as persistently clean and pristine as glass, while avoiding the high energy consumption and complexity of traditional processes. While high-temperature sintering has been the norm for high-performance coatings, a smarter, gentler solution is breaking the mold. Today, we reveal the answer: IOTA PHPS Perhydropolysilazane Liquid Coating. It is more than just a nano-coating material; it is a revolutionary inorganic ceramic precursor capable of intelligently transforming, under relatively mild conditions, into a , transparent silicon dioxide (SiO₂) protective layer, imparting a "self-cleaning" vitality to your product surfaces.

The excellence of IOTA PHPS is rooted in its  materials chemistry. As a special perhydropolysilazane, it exists in a solvent-diluted liquid form, exhibiting excellent solubility and application friendliness. Its epoch-making core value lies in the unique "low-temperature conversion" mechanism: it bypasses the high-temperature calcination steps required for traditional silica coatings. Under relatively mild thermal treatment conditions, it can crosslink, cure, and transform in situ into a dense, high-hardness, nano-scale silica glass-like coating. This process redefines surface functionalization technology.

This intelligent transformation brings about a comprehensive leap in performance:

• Intelligent Hydrophilicity, Anti-Fouling & Self-Cleaning: The resulting SiO₂ coating possesses permanent and卓越的亲水性. Water spreads rapidly into a uniform film on its surface, efficiently flushing away contaminants like dust and grease. This achieves remarkable "stain resistance" and "easy-cleaning" effects, significantly reducing daily maintenance costs.

• Surface Hardening, Durable Protection: The formed nano-silica layer imparts excellent hardness and wear resistance to the surface, effectively resisting daily scratches and abrasion.

• Broad Adhesion, Strong Bonding: Its active components form strong chemical bonds with diverse substrates including metals, ceramics, and polymeric materials, providing excellent adhesion that ensures long-term coating stability and resistance to delamination.

• Efficient Processing, Flexible Adaptation: The product features a short curing time and supports multiple curing methods, allowing flexible adaptation to different production paces. Its low viscosity facilitates various application techniques like spraying and dipping.

From anti-reflective, self-cleaning coatings for architectural glass facades and solar photovoltaic panels, to antibacterial, easy-clean surfaces for medical devices and household appliances, and further to anti-fingerprint and anti-smudge treatments for precision optical components and high-end electronic product screens, IOTA PHPS can simultaneously enhance a product's functionality, aesthetics, durability, and added value with an almost invisible "intelligent glass skin."

Choosing IOTA PHPS means selecting an advanced surface technology path characterized by lower energy consumption, easier processing, and higher performance. It achieves ultimate cleanliness through gentle intelligence.

       Room termperature curing polysilazane, pls check IOTA 9150, IOTA 9150K.       
       High termperature curing polysilazane, pls check IOTA 9108, IOTA 9118.