The Super Graphene Skinned Material - A New Era in Advanced Composites

Beijing Graphene Institute (BGI) is proud to introduce a groundbreaking concept in the realm of materials science - the Super Graphene Skinned Material. This innovative solution transcends the traditional limitations of graphene applications, offering a novel approach to the seamless integration of continuous-state graphene films with conventional materials. Our high-temperature growth process and ingenious engineering have enabled the deposition of continuous-state graphene films directly onto traditional material substrates, marking a significant leap forward in material technology.

Unlike mere coatings, our Super Graphene Skinned Material embodies the epitome of graphene's intrinsic properties, thanks to a direct growth method that preserves its exceptional qualities to an unparalleled extent. This advancement is not just a step but a giant leap in graphene composites, blending high-temperature techniques to marry graphene with various substrates seamlessly.

Our repertoire of Super Graphene Materials extends across non-metallic and metallic categories, with Graphene Glass Fiber leading the charge as a prime example of our non-metallic innovations. This category also proudly includes Graphene Oxide Aluminum, Graphene Silicon Carbide, and Graphene Boron Nitride, each member showcasing the versatility and potential of our graphene technology. On the metallic front, our range spans Graphene Copper, Graphene Nickel, Graphene Indium, Graphene Tin, and Graphene Steel, illustrating the adaptability of our graphene skinning technique across diverse material bases.

Graphene Glass Fiber exemplifies our concept, where continuous-state graphene films are organically fused with traditional glass fiber through a high-temperature chemical vapor deposition process. This novel graphene/glass fiber composite not only retains the inherent attributes of glass fiber but also enhances it with unprecedented electrical and thermal conductivity, courtesy of the atomically thin graphene films.

Since 2013, our team has dedicated itself to pioneering high-quality graphene growth techniques on traditional glass substrates. Our innovative journey has expanded from flat glass to quartz optical fibers and now to glass (quartz) fibers, continuously breaking new ground in overcoming the challenges of graphene growth on glass fiber substrates. Through sophisticated methods such as confined space growth, introduction of growth catalysts, precursor design, substrate surface tuning, and flow field design, we've mastered the controlled fabrication of high-quality Graphene Glass Fiber strands and fabrics, setting new benchmarks in the application of graphene materials.

The global production of glass fibers, a widely utilized engineering material, was around 8 million tons in 2019, with China leading the production, accounting for over 65% of the global output. The integration of graphene, a material celebrated for its strength, lightness, high-temperature resistance, and flexibility, with glass fibers, is poised to revolutionize industries such as defense, aerospace, wind power generation, and construction, heralding a new era in material applications.

At BGI, we're not just innovating; we're redefining the future of materials. The Super Graphene Skinned Material is our commitment to pushing the boundaries of science, unlocking new possibilities, and paving the way for a world where advanced materials lead to advanced solutions. Join us on this exciting journey as we explore the vast potential of graphene and step into a new frontier of material applications.