INORGANIC NANOMATERIALS PATH FROM DESIGN TO COMMERCIALIZATION
INORGANIC NANOMATERIALS PATH FROM DESIGN TO COMMERCIALIZATION
AviXéla employs its proprietary production platform through innovative nano-plasmonic technology. Due to the multidisciplinary character of this field, nanomaterials synthesis over the plasma-liquid interfaces presents important advantages, such as unnecessity of using reducing agents and organic solvents, simplicity of its experimental design, and continuous synthesis during plasma excitation.
AviXéla specialize in manufacturing of inorganic nanoparticles and colloid systems from noble, alloy, and compound metals with a wide degree of precision control over the nanomaterial size and technical attributes, extended further to the unique compositions such as core, shells, and doped nanoparticles. Variations in size and nanomaterials compositions broadly impact their properties and behaviors that directly affect the products range and their implementation. On the other hand, due to physicochemical and quantum effects, nanomaterials take on special properties that are not seen in their bulk counterparts.
We evaluate optimal performance and production challenges during a preliminary product development process, focusing on a feasibility study of primary material or set of commercial materials to create and manufacture a new product or system. Our goal is to provide access to the exact material specifications and maximize the nanomaterial performance, followed by the product integration challenges.
AviXéla focuses on providing customers with an access to the alternate production pathway that will yield the systematically effective technology and cost performance. We have a team history with merged theoretical scientists, engineers, healthcare professionals, and experimentalists who pursue curiosity-driven basic research into the world of technological devices and nanomaterial synthesis. We combined our industry leading investments in nanotechnology expertise to provide our customers with the advanced nanomaterials, and technical and cost requirements.
AviXéla implies alternate renewable sources of coupling plasma on catalyst and catalyst on plasma in a pilot-scale device, capable to produce nanoparticles from any noble, alloy, and compound metals over the different interface substrates and fluid systems. Our team implies ultra-fast one pot reproducible reactions with adapted power sources to synthesize the highly concentrated variable size NPs over the large volume that does not require use of solvents over the clean process. Our method possesses an important advantage of green nanotechnology, such as the unnecessity of using reducing agents, the simplicity of its experimental design, and the continuous synthesis during plasma excitation with minimal waste production as compared to traditional wet chemistry synthesis techniques.
AviXéla embody and inspire change that is focused on production of nanofluids and multifunctional nanocomposite systems. The common laboratory-scale methods, which introduce the nanoparticles as additives to already existing formulations of fluids available, impart the value addition, utilize a lot of energy, and increase the cost of specific industrial applications. The usage of stabilizers and dispersants or employment of ultrasonication, hydrodynamic cavitation, mechanical stirring, and homogenization, are the biggest challenge that requires serious skills and understanding of nanofluids behavior. Our one-step method synthesizes long-term conventional and hybrid nanofluids with stable thermophysical properties, and proves to be reusable, convenient for successful industrial utilization.
We use cookies to analyze website traffic and optimize your website experience. By accepting our use of cookies, your data will be aggregated with all other user data.