Xeriant Inc. has developed NEXBOARD, a composite construction panel that leverages nanotechnology and recycled materials to address growing demands for sustainable building solutions. The patent-pending technology is designed to replace conventional materials like drywall and wood while offering superior performance characteristics that align with circular economy principles.
Constructed primarily from recycled plastic and fiber waste, NEXBOARD integrates nanotechnology to achieve exceptional resistance to fire, water, mold, insects, cracking and abrasion. These properties address common deficiencies in traditional wall and partition materials while reducing environmental impact. The panel's design supports green building certifications and positions it as a potential replacement for materials that contribute to higher resource consumption and carbon emissions in the built environment.
The technology emerges as regulators and end users increasingly demand solutions that reduce environmental impact while improving fire resistance, durability and resilience. NEXBOARD's development reflects broader industry trends toward sustainable construction practices and advanced material science applications. The panel's multi-criteria performance enhancements make it relevant for applications where both sustainability and advanced performance are essential considerations.
Xeriant's advanced materials line, marketed under the DUREVER brand, includes NEXBOARD as part of the company's focus on transformative technologies. The company partners with and acquires strategic interests in visionary companies to accelerate its mission of discovering, developing and commercializing advanced materials for multiple industrial sectors. More information about the company is available in its newsroom at https://ibn.fm/XERI.
The development of NEXBOARD represents a significant advancement in sustainable construction technology, offering builders and sustainability advocates a practical alternative to traditional materials. By utilizing recycled waste streams and nanotechnology, the panel addresses both environmental concerns and performance requirements that are becoming increasingly important in construction specifications and regulatory frameworks worldwide.
