INNOVATION WITHOUT COMPROMISE
Technologies & Solutions
Seamless Integration.
Proven Performance.
Seamless Integration.
Proven Performance.
Our technologies are engineered at the molecular level—permanently bonding pure silver to polymer substrates or integrating botanical treatments into the fiber itself. Whether you are seeking self-cleaning antimicrobial protection, multi-spectral EMI shielding, or flexible biometric sensing, our materials are designed for wash-stable durability and seamless integration into standard textile manufacturing.
MISSION-CRITICAL PERFORMANCE
Shielding & Conductive Applications
Built on the Circuitex® platform, our materials provide advanced, lightweight protection against EMI, RFI, and infrared detection. Engineered with highly conductive fabrics, these solutions offer exceptional shielding effectiveness while maintaining the flexibility, drape, and comfort of traditional textiles.
Noble’s multi-spectral fabrics are engineered to suppress thermal and infrared signatures, helping personnel and equipment blend into any environment. By dispersing heat and minimizing hotspots across critical MWIR and LWIR wavebands, these materials deliver elite concealment and enhanced survivability without compromising the breathability or mobility required for the mission.
Our fabric-based and self-adhesive shielding systems provide a fast, lightweight way to secure rooms and devices against electromagnetic disruption. These flexible textile solutions conform to complex shapes for quicker installation and robust signal integrity, delivering mission-critical protection without the weight of traditional metal foils.
Replace rigid wiring with soft, highly flexible Circuitex® conductive pathways. Engineered to detect and transmit physiological signals—such as heart rate and motion—these integrated sensing systems deliver localized stimulation or warmth while maintaining the comfort, drape, and mobility of a traditional garment.
Built on our proven X-STATIC® technology, Noble’s permanently silvered yarns rapidly dissipate static electricity to safeguard personnel and sensitive electronics. These durable fibers resist washout and wear, providing reliable, long-lasting protection across industrial cleanrooms, transportation interiors, and high-tech manufacturing environments.
“In our industry, hygiene and durability aren’t just features—they are essential to the safety of our environments. Noble Biomaterials brings a level of medical-grade expertise that is rare in the textile world. You can feel the decades of experience in every fiber. Knowing that their silver-based platforms are backed by extensive data gives our team and our patients an extra layer of confidence every single day.”
— Director of Operations, Healthcare Systems
THE IONIC+® ANTIMICROBIAL ECOSYSTEM
Antimicrobial & Odor Control Management Applications
Leveraging the natural power of silver, Ionic+® technologies inhibit microbial growth directly at the textile surface. This permanent, built-in protection ensures fabrics stay cleaner and fresher for longer, delivering a dependable layer of passive microbial control that extends product life across consumer, healthcare, and industrial markets.
Target odor-causing bacteria at the source. Ionic+® prevents the buildup of persistent smells in activewear, bedding, and footwear, allowing for more wears and fewer washes—preserving fabric quality while supporting modern sustainability goals.
Provide a critical safeguard in high-contact environments. By inhibiting microbial growth on medical scrubs, patient bedding, and hospitality linens, our technology adds a passive layer of protection that supports improved textile hygiene and environmental health.
Leverage Noble’s medical-grade silver expertise to support cleaner treatment sites. Integrated into foams, hydrofibers, and implantable components, these registered technologies inhibit microbial growth to reduce contamination risks and improve patient outcomes.
Engineered for the most demanding environments. Our fiber-level protection resists the odor and material degradation caused by sweat and heavy use, extending the functional life of uniforms, filtration systems, and industrial gear without washing out.
