TIME IS OUT OF THE ESSENCE
TIME IS OUT OF THE ESSENCE
At AviXéla, we prioritize a customer-focused strategies to product design and development, offering dedicated support from a team of qualified professionals throughout the entire manufacturing lifecycle. From feasibility studies and conceptual design to applied research and commercialization, we provide comprehensive engineering support. Our solutions-based approach enables us to optimize unique plasmonic and acoustic adaptive devices and related systems, achieving advanced material design and production tailored to specific applications.
Our team employes collaboration and commercialization scalability through a phased development approach to:
AviXéla provides cutting-edge solutions for advanced nanomaterials production. Recognizing that developing nations often face challenges in adopting nanotechnology due to cost and complexity, our team has designed and implemented innovative, efficient, and productive methods. We are committed to offering cleaner and more affordable alternatives to traditional chemical synthesis, mass bulking, and heavy machinery, making green technologies more accessible.
AviXéla specializes in manufacture of advanced inorganic materials, and their functional systems and formulations. We partner with clients of all levels of nanomaterial expertise, offering comprehensive support throughout the process. All developed materials are treated as strictly confidential. We begin each project by understanding our client's core objectives, then explore existing commercial options and optimize materials to precisely meet their unique product requirements.
The initial design phase involves defining the materials of interest and desired specifications, such as form, composition, particle size, target price, and production volume. If our initial assessment suggests a viable path forward, we proceed with a Non-Disclosure Agreement (NDA) and facilitate a detailed discussion between AviXéla's technical team and the client's technical staff. This in-depth exchange focuses on critical specifications and any existing knowledge the client possesses, with the aim of developing a comprehensive scope of work and project estimate.
From project initiation, AviXéla collaborates closely with clients to achieve preliminary goals, performance targets, budget parameters, and commercialization timelines for advanced nanomaterial production. Our focus is on ensuring seamless scalability, from milliliter-scale lab samples to metric-ton manufacturing volumes. AviXéla's R&D team possesses extensive experience in assessing material scalability and implementing repeatable, highly flexible manufacturing processes that adhere to lean principles. This approach enables us to consistently meet client timelines and budget requirements.
We are eager to partner with established industry leaders to enhance their R&D programs. Our process flexibility ensures smooth and successful collaborations throughout all stages of product development. AviXéla's unique ability to precisely control a wide range of material attributes and accommodate specific customer requirements empowers our industrial clients to introduce higher-performing, higher-margin, and differentiated solutions to the marketplace.
AviXéla implies alternate renewable sources of coupling plasma on catalyst and catalyst on plasma in a pilot-scale devices, capable to produce advanced inorganic nanomaterials 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 nanoparticles 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 or nanocolloids 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.
AviXéla applies high-performance acoustic technology for sludge disintegration of agglomerated nanosized dispersions, emulsions, and colloids. We develop cross-correlated excitation technique enable to generate the spatially encoded ultrasonic waves with specific frequency. Both programmable and physically aberrating, our method imlies customized time-waveform signal, formed by simultaneous beam from several elements of ultrasonic transducers, receiving distinguishable codes. Our team applies batch and continuous inline direct and indirect procedures for the feasible biomass pretreatment as well as for the particle size reduction. By using acoustic adaptive technology, it's possible to produce nanomaterials with tailored properties for a wide range of applications, from cosmetics and coatings to biomedical therapies and energy storage.
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.
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