"The Science of Possibility through Graphene"
Graphene Innovations
is a joint venture with global headquarters in the Republic of Mauritius. Graphene Solutions Ltd is a partnership between Graphene Leaders Canada (GLC) Inc., and its group of related companies, and GreenBird Graphene, a subsidiary of GreenBird (Mauritius) Ltd.
GRAPHENE SOLUTIONS will offer advanced graphene solutions grounded by GLC's established reputation for developing innovative Graphene applications in medical diagnostics, environmental treatments and industrial coatings and additives.
GRAPHENE SOLUTIONS was created to bring breakthrough graphene and carbon-based technologies and products to global markets with a particular focus on Africa, Asia Pacific and China.
GSL is now focusing on advanced R&D, manufacturing and commercialization across multiple sectors.
Graphene Solutions is advancing GLC’s medical biosensor platform and industrial additive technologies, targeting high-impact applications in protective coatings, concrete, lubricants, and other advanced industrial markets
1. Graphene Biosensors.
GLC Medical (GLCM) Inc. has developed a highly accurate, portable, sensitive and digital diagnostic platform for pathogens that provides immediate results in under 1-minute and is easily deployable to any community around the globe. The GLCM Biosensor Platform is a tool for pandemic, epidemic and endemic preparedness.
Graphene Solutions is focused on adapting the Platform for different pathogens, developing a multiplex testing platform, and creating commercial value through real-world deployment into a global market. The company adheres to several of the UN Sustainable Development Goals, highlighting good health, partnerships, innovation and sustainable development goals.
Other rapid test “Gs2+” to be developed by Graphene Solutions in partnership with world class lab partner in Mauritius are E-Coli, Salmonela, Influenza A/B, Tuberculosis, Ebola ,Zika, Chikungunya, Cancer markers and more.
2. Graphene-based Water Purification System.
To provide a more cost-effective and scalable solution to water filtration, GLC Environmental Technologies Inc., a subsidiary of Graphene Leaders Canada (GLC), has focused its efforts on the development of a carbon-based filtration media. This advanced material is engineered to remove a broad spectrum of contaminants—including heavy metals, organic compounds, and excess salinity—from industrial, municipal, and natural water sources.
3. Graphene-based Lubricants.
Graphene can also be utilized as an additive in lubricants to increase fuel economy and engine stability. We will research on adding different forms and quality of graphene to lubricating oil to enhance performance and stability, resulting in less wear and tear. On the next stage, we will be moving into commercialization with this product focused on the automotive industry.
4. Graphene-based Corrosion Coating Additives.
Graphene-based additives enhance corrosion coatings by creating a superior barrier against water, oxygen, and chemicals due to graphene's impermeable and strong nature. These additives improve a coating's durability, adhesion, and self-healing properties while eliminating the need for toxic heavy metals like lead and chromates. This can result in longer-lasting protection, thinner paint layers, and improved performance in harsh environments, although commercial integration is still evolving.
5. Graphene-based Rust Protective Coatings.
Graphene-based protective coatings offer superior durability, scratch resistance, and corrosion prevention by creating a strong, thin barrier on a surface. These coatings are known for their high strength-to-weight ratio and impermeability, which protect substrates from oxidation, water, and aggressive ions. Applications range from industrial anti-corrosion paints and structural coatings to consumer products like car coatings, offering enhanced protection and longevity.
6. Graphene-based additive for Electroless Nickel Coatings.
Electroless nickel plating is a form of alloy treatment designed to increase resistance and hardness in a metal or plastic. The electroless nickel plating process is simpler than its counterpart electroplating. Graphene-based additives improve electroless nickel (EN) coatings by enhancing wear resistance, hardness, lubricity, and corrosion resistance. These additives, often in the form of graphene nanoparticles or their derivatives, are dispersed into the plating bath, creating a composite coating where graphene is co-deposited with the nickel.