INORGANIC NANOMATERIALS PATH FROM DESIGN TO COMMERCIALIZATION
INORGANIC NANOMATERIALS PATH FROM DESIGN TO COMMERCIALIZATION
AviXéla enforces the applied sciences and implies systemic approach in fundamentals by its pioneering nanomaterial design processes and use of alternate energy sources for high purity nanoplasmonic processing in the accelerated, controllable, and reproducible production. We precisely control nanoparticles synthesis over the plasma-liquid interfaces from any noble, alloy, or compound metals, a process that possesses advantages compare to chemical reactions as unnecessity use of reducing agents, the simplicity of its experimental design, and the continuous synthesis over the plasma excitation.
This has enabled our engineers to produce the smallest (down to 2 nm), monodispersed, non-agglomerated, and highly concentrated inorganic nanoparticles in the industry. AviXéla has demonstrated precision control and customization over a wide variety of nanoparticle attributes including, but not limited to:
In addition, we are in process of design and development of complex nanoparticles functionalization, such as:
Our nanomaterials line includes inorganic particles ranging in size from less than 5 nm to 100 nm diameter with variety of surface stabilization and different colloid systems. The sample size of metal nanoparticles and concentration may be customized as required as high as 70 volume percent.
The selected area diffraction pattern of .9999 gold nanoparticles obtained in sodium citrate HPLC grade aqueous solution manufactured by plasma excitation.
TEM image showing spherical morphology and physical diameter of AuNPs less than 2 nm obtained in sodium citrate HPLC grade aqueous solution produced by plasma excitation method. Note that the AuNPs sizes are fairly uniform. A magnified view clearly revealing the conserved AuNPs size distribution. The length of the scale bar corresponds to 50 nm.
TEM image showing monodispersed morphology and physical diameter of AuNPs obtained in tannic acid HPLC grade aqueous solution by plasma excitation method. Note that the AuNPs sizes are fairly uniform. A magnified view revealing the conserved size distribution. Image analysis indicate the particle diameter to be 5.00±2.7 nm.
Transmission electron microscopy data analysis showing the range of physical diameter of AuNPs including less than 2 nm obtained in sodium citrate HPLC grade aqueous solution produced by plasma excitation method.
UV-VIS spectroscopy of gold and copper colloidal suspension obtained without stabilization in DI water. Image showing spherical morphology according to the Mie theory and physical diameter of AuNPs and CuNPs, including less than 2 nm at the wavelength 200 nm and agglutination caused by stable-free system.
Energy-dispersive X-ray spectroscopy (EDS) spectrum of gold colloidal suspension obtained in sodium citrate HPLC grade aqueous solution by plasma excitation method.
AviXéla focuses on the production of spherical plasmonic metal nanoparticles that distinguish themselves from other nanoplatforms, such as semiconductor quantum dots, and magnetic and polymeric nanoparticles, by unique optical property, such as surface plasmon resonance (SPR), resulting from photon confinement that enhances their both radiative and nonradiative properties.
Due to the extraordinary efficiency at absorbing and scattering light, spherical nanoparticles are increasingly incorporated into commercial products and technologies, ranging from photovoltaics to biomedical and chemical sensors.
In order to reach industry standards and improve our production capabilities, our inorganic nanoparticles physicochemical characteristics have been analyzed by ultraviolet–visible spectroscopy (UV-Vis), dynamic light scattering (DLS), transmission electron microscopy (TEM), and X-ray photoelectron spectroscopy (XPS).
AviXéla dedicated itself on supporting the full production lifecycle, specifically customized for inorganic nanoparticles design, scale-up, and manufacturing. We are precisely committed to continuous manufacturing improvement. We enable to expand the range of our production capabilities and continually improve our expertise, and add new methods of analytical characterization. Our goal is to ensure our customers to have an access to nanomaterials they need, at a price that they can afford.
Mon | 09:00 am – 05:00 pm | |
Tue | 09:00 am – 05:00 pm | |
Wed | 09:00 am – 05:00 pm | |
Thu | 09:00 am – 05:00 pm | |
Fri | 09:00 am – 05:00 pm | |
Sat | Closed | |
Sun | Closed |
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