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Ultra-Efficient Wetting & Leveling with Surflon S-386 Fluorosurfactant
Redefine Surface Performance with 100% Active Non-Ionic Fluorosurfactant Technology
High-Performance Wetting with Fluorodyne 106 – C6 Fluorosurfactant
Next-Generation Surface Control with 100% Active, Indian-Made Fluorosurfactant Technology
Maximum Wetting Power with Fluorodyne 108 – C8 Fluorosurfactant
Ultra-Low Surface Tension & Superior Spreadability with 100% Active C8 Technology.
Superior Wetting Control with Fluorodyne 230 – Anionic Fluorosurfactant
High-Efficiency Surface Tension Reduction with 30% Active Anionic Fluorotechnology.
Highly Efficient Wetting with Fluorodyne 235 – Anionic Fluorosurfactant
Smart Surface Tension Reduction with 15% Active Fluorotechnology for Water-Borne Systems.
A high-purity, extra-coarse h-BN powder (100–200 μm) designed for extreme thermal and tribological performance. Its robust particle structure provides exceptional heat dissipation, outstanding high-temperature stability, and superior dry lubricity
A high-purity, extra-coarse h-BN powder (100–200 μm) designed for extreme thermal and tribological performance. Its robust particle structure provides exceptional heat dissipation, outstanding high-temperature stability, and superior dry lubricity
Ultra-Efficient Wetting & Leveling with Surflon S-386 Fluorosurfactant
Redefine Surface Performance with 100% Active Non-Ionic Fluorosurfactant Technology
High-Performance Wetting with Fluorodyne 106 – C6 Fluorosurfactant
Next-Generation Surface Control with 100% Active, Indian-Made Fluorosurfactant Technology
Maximum Wetting Power with Fluorodyne 108 – C8 Fluorosurfactant
Ultra-Low Surface Tension & Superior Spreadability with 100% Active C8 Technology.
Superior Wetting Control with Fluorodyne 230 – Anionic Fluorosurfactant
High-Efficiency Surface Tension Reduction with 30% Active Anionic Fluorotechnology.
Highly Efficient Wetting with Fluorodyne 235 – Anionic Fluorosurfactant
Smart Surface Tension Reduction with 15% Active Fluorotechnology for Water-Borne Systems.
A premium water-based Boron Nitride coating containing 30% active h-BN dispersed in a durable alumina binder. This white, ready-to-use coating delivers exceptional non-wetting behavior, high-temperature stability, and superior lubrication on metal, ceramic, and graphite surfaces.
A blue-colored, high-performance Boron Nitride coating formulated with a strong alumina-based binder to deliver excellent non-wetting, high-temperature lubrication, and clean-release properties. The coating provides outstanding protection against molten metal adhesion, oxidation, and wear on metal, graphite, and ceramic substrates.
A high-purity, ultra-fine h-BN powder (1–5 μm) engineered for advanced thermal, lubrication, and coating applications.
A high-purity, fine h-BN powder (10–15 μm) designed for demanding thermal, lubrication, and coating applications. Its balanced particle size offers excellent thermal conductivity, superior surface slip, and consistent dispersion
FOAMSTAB 830 is a high-performance defoamer and deaeration additive supplied as a 10% active formulation, developed for demanding industrial systems where foam and entrained air cause surface defects, processing instability, and productivity losses.
A premium water-based Boron Nitride coating containing 30% active h-BN dispersed in a durable alumina binder. This white, ready-to-use coating delivers exceptional non-wetting behavior, high-temperature stability, and superior lubrication on metal, ceramic, and graphite surfaces.
FLINK 7000 is a clear, colorless engineered heat-transfer fluid developed for very low-temperature cooling and dielectric thermal management in high-performance industrial and electronics systems.
FLINK 7200 is an engineered hydrofluoroether (HFE-7200) specialty fluid developed for precision cleaning, vapor degreasing, rinsing, and dielectric-safe processing in electronics and high-value manufacturing.
Enables unbeatable wetting and spreading on hard-to-wet substrates like PP, PE, PTFE, oily surfaces, and low-energy plastics.
Works effectively at 0.01–0.1%, delivering strong performance improvements without affecting viscosity or film build.
Fluorinated additives remain stable and effective from acidic to alkaline systems and maintain performance even at elevated processing or curing temperatures.
Creates durable hydrophobic and oleophobic surfaces for easy-clean, anti-graffiti, and anti-soiling performance.
Unlike silicones, fluorinated additives improve leveling without causing fisheyes, orange peel, or incompatibility issues.
Molecules anchor into the film, providing stable, long-lasting protection that does not bloom or leach out.
Performs reliably in harsh environments—solvent systems, UV/LED inks, high-temperature coatings, and outdoor exposure.
Compatible with solvent-borne, water-borne, 100% solids, epoxy, PU, acrylics, inks, and sealants without destabilizing the formulation.
Improves flow, gloss, and leveling, giving cleaner, premium finishing with reduced surface imperfections.
Environmentally safer alternative to older C8 systems, meeting global regulatory requirements.
Provides wetting, leveling, repellence, defect control, and durability—reducing formulation complexity and cost.
Fluorinated additives reach ~18–20 dyn/cm, far lower than silicones, giving superior wetting on low-energy substrates.
Silicones often cause surface defects due to incompatibility; fluorinated additives improve leveling without disturbing the film.
Silicones can migrate, bloom, or leach out over time; fluorinated molecules anchor better, giving permanent performance.
Silicone layers can reduce intercoat bonding; fluorinated additives maintain adhesion between layers.
Fluorinated films resist oils, fuels, cleaners, and harsh chemicals better than silicones.
Fluorinated additives remain effective across broad pH and high curing/baking temps where silicones may lose efficiency.
Fluorinated additives work at ppm levels; polymeric additives need higher loading to reach similar wetting.
Polymeric additives mainly give water repellence; fluorinated chemistry provides both oleophobic and hydrophobic protection.
Gives instant wetting and smooth flow, reducing defects more effectively than polymeric flow/leveling agents.
Fluorinated barriers resist dust, pollution, and stains far better, especially for exterior and high-use surfaces.
Fluorinated bonds resist UV breakdown and outdoor aging longer than hydrocarbon/polymeric systems.
PP, PE, EVA, PTFE, oily or contaminated surfaces wet easily with fluorinated additives; polymerics struggle here.
At Geocon, we bridge the worlds of chemistry and biotechnology to create smarter,
more sustainable solutions for industries worldwide. Our mission is to redefine performance — from advanced materials and enzyme technologies to clean chemistry innovations that drive progress and care for the planet.
At Geocon, we bridge the worlds of chemistry and biotechnology to create smarter,
more sustainable solutions for industries worldwide. Our mission is to redefine performance — from advanced materials and enzyme technologies to clean chemistry innovations that drive progress and care for the planet.
