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At Soarce, we engineer nanofibers from renewable biomass that are designed to enhance the performance of industrial materials at every level. These nanofibers are incredibly small - 10,000x thinner than a human hair - yet unlock outsized improvements when integrated into composites, coatings, and cement systems. Their unique structure combines strength with lightness, forms protective barriers, and serves as a versatile functional ingredient in binders, films, and rheology control. And because they’re derived from natural, non-toxic sources, our nanofibers deliver these benefits without compromising health or sustainability.
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At Soarce, we engineer nanofibers from renewable biomass that are designed to enhance the performance of industrial materials at every level. These nanofibers are incredibly small - 10,000x thinner than a human hair - yet unlock outsized improvements when integrated into composites, coatings, and cement systems. Their unique structure combines strength with lightness, forms protective barriers, and serves as a versatile functional ingredient in binders, films, and rheology control. And because they’re derived from natural, non-toxic sources, our nanofibers deliver these benefits without compromising health or sustainability.
Our nanofiber additive boosts composite materials such as carbon, glass, and Kevlar by enhancing interlaminar shear strength, flexural, and tensile properties. This enables manufacturers to achieve high performance with lower-grade fibers, reducing costs while maintaining strength and durability.
Our nanofiber additive enhances industrial materials such as concrete, agriculture, and flexible packaging by improving strength, water retention, and barrier properties. It supports sustainable formulations with less material usage and greater durability in various applications.
Source nanofiber additives in multiple grades and functinoalities tailored to your specific application needs.
Source tow and nonwoven products pre-treated for superior fiber–resin bonding for higher-performance composites.
Disperse secondary particles to build hybrid formulations such as thermal, electrical, and EMI properties.
Structural Composites
Seabind™ enhances structural panels (e.g. concrete) by increasing strength and durability while reducing material use. Its binding properties enhance workability and crack resistance, offering a viable solution for construction.
Transportation & Energy
Seabind™ enables lightweight, durable materials for automotive, aerospace, and marine applications. It strengthens composites, while reducing material usage and improving fuel efficiency for more sustainable transportation.
Sports Gear Composites
When adding Seabind™ to composite parts, such as those in golf clubs or bikes, it strengthens the material, allowing you to use less while maintaining the same durability—resulting in lighter, better-performing products.
Structural Composites
Seabind enhances structural panels (e.g. concrete) by increasing strength and durability while reducing material use. Its binding properties enhance workability and crack resistance, offering a viable solution for construction.
Transportation Comosites
Seabind enables lightweight, durable materials for automotive,aerospace, and marine applications. It improves fuel efficiency, enhances coatings, and supports greener, more efficient transportation systems.
Sporting Gear Comosites
Seabind delivers lightweight durability and enhanced mechanical strength for equipment like bicycles, tennis rackets, and helmets to improve performance while reducing weight, enabling athletes to push their limits.
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Soarce offers an assortments of chemicals for textiles, cosmetics, and inks for enhanced performance and reduced complexity in manufacturing.
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A biopolymer derived from seaweed offering binding capabilities, rheology modification, and particle suspension without the usage of any toxic ingredients.
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Similar to Seabind but with enhanced traits including fire resistance, UV/IR reflectance, stable white, and surface modification enabled by skin safe nano-ceramic particles.
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A refining solvent made from sugars, minerals & organic compounds offering clean extractions, pH control, shelf-life stability, cationic and anionic treatments.
Seaweed such as kelp has been reported to sequester 20 times as much CO2 as trees due to how fast it grows!
Kelp farming requires no fresh water, land usage, nor pesticides to grow.
Large amounts of sargassum can build in tourism-driven economies. Finding uses is imperative.
Terrestrial plants like trees can take over 10 years to grow where seaweed can double in size in a month!
Seaweed such as kelp has been reported to sequester 20 times as much CO2 as trees due to how fast it grows!
Kelp farming requires no fresh water, land usage, nor pesticides to grow.
Large amounts of sargassum can build in tourism-driven economies. Finding uses is imperative.
Terrestrial plants like trees can take over 10 years to grow where seaweed can double in size in a month!
We're a group of ambitious creative thinkers, who have created a materials innovation brand with the primary goal of revolutionizing the world of material science, where natural materials can be leveraged to outperform synthetics.
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