Our nanomaterial line includes inorganic particles and colloids ranging in size from less than 2 nm to 100 nm diameter in aqueous or organic dispersion format with variety of surface stabilization or doping systems. The sample size of metal nanoparticles and concentration may be customized as required as high as 70 volume percent.
DISCOVER OPTICAL AND PHYSICOCHEMICAL PROPERTIES OF NANOPARTICLES, NANOCOLLOIDS, AND NANOCLUSTERS
DISCOVER OPTICAL AND PHYSICOCHEMICAL PROPERTIES OF NANOPARTICLES AND NANOCOLLOIDS
DISCOVER OPTICAL AND PHYSICOCHEMICAL PROPERTIES OF NANOPARTICLES AND NANOCOLLOIDS
Inorganic nanoparticles and nanocolloids have unique and beneficial properties that can be leveraged across a range of product types, including functional coatings, catalysts, additives, conductive inks, antimicrobial, and antitumorogenic. Specifically, the size of inorganic nanomaterials ranges from 1 to 100 nm that are similar to cellular components and microorganisms can be employed as innovative tools in biomedical therapy, diagnostics, and drug delivery. Most inorganic NMs display customizable morphology, high biocompatibility, reliable functionalization, and prolonged circulation in the bloodstream. NMs less than 2 nm size can cross blood brain barrier and cross intracellular membranes. Among lipids, self-assembled proteins, and biopolymers, properly functionalized inorganic particles represent the most promising material in the innovative vaccines development.
This is our primary list of the different properties and functionalities of inorganic nanomaterials that can be customized accordingly our clients goals.
Gold nanoparticles demonstrate surface-enhanced Raman scattering; uniform shape, size, and branch length; tuned pharmacokinetics and biodistribution; antibacterial and antifungal activity; and chemical stability useful for immunodiagnostics, biosensors, sensing, optical effects, and drug delivery.
Palladium nanoparticles express surface-enhanced Raman scattering; uniform shape, size, and branch length; extraordinary catalytic, powerful mechanical and electroanalytical properties; anti-bacterial and anti-oxidant pharmacological activity.
Platinum nanoparticles express surface-enhanced Raman scattering; uniform shape, size, and branch length; tuned pharmacokinetics and biodistribution; antibacterial and antifungal activity, and chemical stability useful for catalysis and molecular diagnostics.
Copper nanoparticles absorb and reflect UV light, possess a wide range of accessible oxidation states, and express antibacterial, antifungal activity, and chemical stability useful for catalytical reactions.
Nickel nanoparticles absorb and reflect UV light, possess a wide range of accessible oxidation states, employed in conductive electrolytic layer of proton exchange membrane fuel cells; useful for automotive catalytic converters, coatings, magnetic fluid and catalyst, propellant and sintering additive; antibacterial and antifungal activity.
Silver nanoparticles demonstrate surface-enhanced Raman scattering; uniform shape, size, and branch length; tuned pharmacokinetics and biodistribution; antibacterial and antifungal activity; and chemical stability, useful for conductive composites, biosensors, sensing, photovoltaics, and other..
Aluminium nanoparticles absorb and reflect UV light;
primarily used as an abrasive and thickening agent, but also functions as an anti-caking agent and absorbent.
Titanium nanoparticles absorb and reflect UV light;
hydrophilic, biocompatible, safe, and stable.
Zinc nanoparticles absorb and reflect UV light; hydrophilic, biocompatible, safe, and stable.
Nanoparticles production batches are supplied with a Certificate of Analysis to guarantee products meet specifications. This report includes Transmission Electronic Microscopy, Dynamic Light Scattering and UV-vis spectroscopy information.
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