In the frontier of technology where extreme performance is paramount, can the final form of a material be precisely “programmed”? We proudly present Organoborosilazane IOTA 9120 — this is more than a precursor; it is an intelligent material platform with designable properties and tunable composition. It merges the unparalleled processing ease of polymers with the exceptional performance of state-of-the-art SiBCN ceramics, granting engineers the ultimate freedom to customize the final product from the molecular level.

IOTA 9120 is a liquid polymer composed of repeating Si-N and Si-N-B units. Its core value lies in its “dual identity” and “controllable transformation”. As a high-performance thermosetting resin, it offers very low viscosity (10,000-20,000 cp) and adapts flexibly to your process through diverse curing methods: it can be thermally cured at 120-180°C or, with a platinum catalyst, rapidly cured via hydrosilylation under mild conditions of 80-100°C (2-5 hours). Its high solid content of 99.9% ensures application efficiency, and it demonstrates excellent adhesion to materials like metals, ceramics, and graphite, making it an ideal matrix for advanced composites and coatings.

Its true revolutionary nature, however, lies in its “programmable” ceramic future. IOTA 9120 boasts a high ceramic yield of >50%, efficiently converting into superior ceramic under mild conditions. Most critically, you can actively “program” the final ceramic’s chemical composition and properties by precisely selecting the pyrolysis atmosphere:

• Nitrogen/Argon → Yields a composite of SiC and Si₃N₄

• Ammonia → Predominantly forms Si₃N₄

• Air → Creates unique SiBOCN

Combined with the strategic use of fillers, you can further tailor the ceramic's microstructure, precisely controlling the phase transformation from amorphous (<1600°C) to crystalline. This unprecedented designability allows you to tailor the perfect protective solution for specific extreme environments, such as ultra-high temperature, oxidation, or corrosion.

Technical Parameters Assure Performance: A pale yellow liquid with a molecular weight (Mn) of 700-900 and a ceramic density of 1.70-2.00 g/cm³, providing a stable and reliable physical property baseline.

Important Note: To unlock its full potential, always dilute with dry solvents and strictly avoid contact with water, alcohols, acids, bases, and other protic substances.

Choosing IOTA 9120 means selecting complete control from conception to finished product. It transforms complex ceramic science into a series of clear choices, allowing you to effortlessly guide the precise evolution from liquid resin to advanced ceramic, providing core material solutions for next-generation aerospace, energy, and semiconductor applications.