Tengena Silver Nanoparticles are spherical nanoparticles manufactured through alternate technology along with the use of renewable sources by coupling plasma on catalyst and catalyst on plasma in a pilot-scale plasma-liquid device for nanoplasmonic elements and nanotechnology-based applications. Due to the multidisciplinary character of this field and broad range of established applications, this method presents important advantages of green nanotechnology, such as the unnecessity of using reducing agents and organic solvents, simplicity of its experimental design, continuous synthesis, and one-pot ultra-fast reactions with minimal waste production. It offers the advantages of resulting in highly monodispersed sizes and shapes, long shelf lives, along with significantly improved reactivity. Diameters from less than 2 nm up to 100 nm with size accuracies up to 0.3 nm for small particles and size variances less than 5%. Peak SPRs range from less than 200 nm up to 700 nm. Every batch was characterized by size, monodispersity, aggregation, residual chemicals, and concentration.
Safety Data Sheet and Product Information are provided for every order exhibiting DLS images and data. Every product is customized and shipped on the same day. This product comes in several concentrations up to 70 OD and over when customized in DI or HPLC graded water, purified of residual reactants to <0.1% or customized fluid system. These particles are available non-covalently capped with our own proprietary trisodium citrate, tannic acid, PVP and other. These capping agents are readily replaced with covalent and charge chemistries. Silver particles is directly manufactured in trisodium citrate and other functionalized aqueous and organic fluids. As fas as citrate weakly interact with nanogold by electrostatic interactions, it can be easily displaced by adding biomolecules like antibodies, receptors, DNA, aptamers, and other. Proteins also create a very strong and stable interactions with gold by combining different types of binding like electrostatic, hydrophobic, and coordinate covalent bounds.
Energy-dispersive X-ray spectroscopy (EDS) spectrum of silver colloidal suspension obtained in HPLC grade aqueous solution by plasma excitation method.
Our production algorithms can optimize your operations and increase efficiency. We employed innovative one pot solvent-free reproducible reaction enables us to synthesize highly concentrated silver NPs over the large volume that are non-toxic. This method possesses an important advantage, such as the unnecessity of using reducing agents, and it’s not pH dependent.
TENGENA has the advantage of producing spherical monodisperse nanoparticles with no odd shapes in controllable, and reproducible synthesis. With ≤5% odd shapes and a CV of ≤8%, the uniform shape and size of TENGENA silver ensures functionalized biomolecules binding, giving reliable results in your assay.
Our nanoparticles are proven stable for at least twelve months at 4 degree C and are supplied with a minimum of three month’s expiry. Stable particles ensure a settled testing regime, saving you time and wastage. We imply the aqueous and organic stabilized dispersion that can displaced by adding any biomolecules, such as antibodies, ligands, and aptamers. Our silver nanoparticles reveal high-contrast control tests, particularly stable yellow blue color.
TENGENA nanoparticles are available in different sizes from 1 nm to 100 nm diameter over different plasma interface fluid systems. Single particles batch is available at customized volumes according to the particles size exceeding 100 liters, linked to the following feasibility and implementation of production processing. Our batch sizes go up to 50 liters 2 nm in size to ensure you have a continuous supply.
TENGENA silver must pass strict quality procedures before it's released to our customers, guaranteeing chemicophysical and optical characteristics at scale.
Toxic, when less than 10 nm, due to the Ag free ions to be used in biotechnology and medicine. Conductive composites, biosensors, sensing, photovoltaics.
Toxic, when less than 10 nm, due to the Ag free ions to be used in biotechnology and medicine. Conductive composites, biosensors, sensing, photovoltaics, antimicrobial therapy, cosmetology, dermatology, food preservation. Used as an effective drug delivery system due to the transmembrane, intracellular drug delivery system, protecting attached therapeutics from degradation, anticancer, antimicrobial therapy.
Conductive composites, biosensors, sensing, photovoltaics, antimicrobial therapy, cosmetology, dermatology, food preservation. Used as an effective drug delivery system due to the transmembrane, intracellular drug delivery system, protecting attached therapeutics from degradation, anticancer, antimicrobial therapy.
Electronics, conductive coatings, inks, pastes, microelectronic devices, sintering additives, capacitor materials, water treatment systems, antimicrobial coatings for surgical tools, dental materials like dental amalgam, restorative cements, and dental implants.
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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