What the Project Is
The project portfolio includes Na.Ma.S.Te. – Nano Materials Smart Technology, Pa.Na.Ma. – Particular Nano Materials, Green Gra.S.S. – GREEN Graphene Supercritical Synthesis, GREEN SWAMP – Supercritical Water Metal Precipitation, GREEN Silver – Silver nanoparticles from Silver Cyanide industrial wastewaters, and GREEN Slime – Green Supercritical Lithium Ion Materials For Energy. Excellence in Nanoparticles is at the heart of this initiative. The company develops, produces and markets innovative nanomaterials using its proprietary green, flexible and scalable technology. The initiative involves creating a circular manufacturing platform for the integration of nanomaterials into industrial products. The idea is to make the world a greener place through better and smarter nanomaterials… combining sustainability and intelligence in each process.
Main Benefit
- Synthesis of laboratory-controlled quality nanoparticles in massive quantities.
- Utilisation of a proprietary, green, flexible and scalable technology platform.
- Deployment of physico-chemical properties of supercritical water for the large-scale production of micro and nano dispersions.
- Manufacture and commercialisation of 50+ different materials by an innovative Italian startup.
- Versatile product applications in coatings, catalysis, composites, and biomedicine.
This approach yields numerous benefits: a sustainable process, enormous production capabilities, and technological innovation that drives the integration of nanomaterials into everyday industrial products.
Innovation in Nanoparticles
The project is driven by excellence in nanoparticle synthesis. Laboratory-controlled quality nanoparticles are produced in massive quantities thanks to flexible, sustainable, safe and intelligent processes. A standout innovation lies in the ability to create nanoparticles using supercritical water—a method that delivers precision and scalability with a natural, almost conversational ease. This innovative edge fuels the integration of cutting-edge nanomaterials into varied industrial products, ensuring that each nanoparticle contributes to the overall goal of a greener, smarter future.
Technology and Processes
The technology is firmly rooted in the physico-chemical properties of supercritical water, which allows for the large scale synthesis of micro and nano dispersions in water. The process not only guarantees quality but also embraces a circular manufacturing approach—remarkably sustainable and safe. Through this intelligent process, the project synthesises nanoparticles with a consistent laboratory-controlled quality, a methodology that has been enhanced by a blend of rigorous science and a touch of dynamic, real-world application. The result? Flexible processes that mirror nature’s pace while delivering industrial-grade products.
Application Areas of Nanomaterials
Nanomaterials produced via this technology find their use in a range of sectors such as coatings, catalysis, composites and biomedicine. The adaptability of these materials means they can be integrated seamlessly into industrial products, offering high performance and a greener alternative. The versatility of these materials is a testament to their underlying design—whether in enhancing the properties of everyday items or contributing to high-tech solutions within biomedicine, their use spans a broad spectrum. The projects allow industries to benefit from smarter, greener nanotechnologies that are geared toward future challenges.
Project Impact
- SDG 7: Affordable and Clean Energy
- SDG 9: Industry, Innovation and Infrastructure
- SDG 11: Sustainable Cities and Communities
- SDG 12: Responsible Consumption and Production
- SDG 13: Climate Action
- SDG 17: Partnerships for the Goals
Future Outlook
Looking ahead, the project’s focus on creating a circular manufacturing platform for nanomaterials continues to set a high standard for sustainability and innovation. As an Italian startup pioneering in the field, the initiative promises to expand its repertoire of 50+ different materials while exploring new application areas in coatings, catalysis, composites and biomedicine. The technology, anchored in the robust properties of supercritical water, stands as a testament to how flexible and intelligent processes can transform traditional manufacturing. The future, illuminated by these smarter nanomaterials, is undoubtedly greener… and offers an engaging prospect for industries aiming at both progress and planetary care.
