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[] Titanium Dioxide Nanoparticles 적립금

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상품명 Titanium Dioxide Nanoparticles
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상품상세정보

Titanium Dioxide Nanoparticles

NanoComposix fabricates a variety of precisely engineered and highly characterized titanium dioxide nanoparticles with well-defined sizes, morphologies – including nanorods, nanowires, spheres, and coatings – and surface chemistries. All of our TiO2materials are monodisperse, unagglomerated, and are ideally suited for use as reference materials, nanotoxicology investigations, and nanotechnology research and development.

TITANIA NANORODS

 

Titania nanorods from nanoComposix are 1D crystalline (anatase-phase) nanoparticles with narrow length and diameter distributions, a high refractive index, and strong UV absorption properties. The nanorods are:

  • Surface functionalized with stearic acid, and readily disperse in both nonpolar and polar organic solvents
  • Uniform in size and morphology: an average length of 55 nm and diameter of 15 nm
  • Provided in n-butanol at a TiO2 mass concentration of 1 mg/mL

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Custom Titania Nanomaterials from nanoComposix

NanoComposix has extensive experience with the synthesis and development of complex titania nanomaterials and coatings, and has produced a broad assortment of well-characterized, precisely-tuned TiO2 nanoparticles on a custom basis for many customers. We are able to synthesize titania nanomaterials of varying sizes, morphologies, crystal phases, surface functionalities, and solubilities.

Contact us today to inquire about your own custom titania nanoparticle needs.

TITANIA NANOWIRES

 

Titania nanowires represent an extremely high aspect ratio 1D TiO2 nanomaterial, having an average length of 600 nm and an average diameter of 20 nm. This material is dispersible in water and polar, aqueous-compatible solvents. The dimensions and crystalline phase of the nanowires can be tuned by varying the reaction conditions during the synthesis.

SPHERICAL TITANIUM DIOXIDE

200 nm amorphous titania nanospheres 7 nm anatase nanocrystals

NanoComposix manufactures a wide variety of spherical titania nanoparticles for our customers. The materials are extensively characterized and can be provided in a wide range of solutions, sizes, and crystalline phases. Amorphous titania exhibits a high refractive index and excellent dispersibility in water and alcohols, while crystalline titania (i.e., anatase or rutile) features an even higher refractive index and excellent photocatalytic performance.

TITANIA COATINGS ON NANOPARTICLES

Au nanospheres with amorphous titania shells Ag nanospheres with amorphous titania shells

We are also capable of coating various nanomaterials with a titanium dioxide shell; typical core materials include silica nanospheres as well as plasmonic gold and silver nanoparticles. The crystallinity of the shell can be controlled with calcination techniques. Amorphous titania shells exhibit a high refractive index and excellent dispersibility in water and short-chain alcohols; crystalline titania shells feature still higher refractive indices and enhanced photocatalytic properties. A shell of highly crystalline TiO2can dramatically red-shift the maximum extinction of a plasmonic nanoparticle core and is an additional tool for developing nanoparticle formulations with a specific color response.

SURFACE FUNCTIONALIZED TITANIA NANOPARTICLES

230 nm crystalline titania nanospheres with a polyethylene glycol (PEG) surface 25 nm crystalline titania nanoparticles with a polyvinylpyrrolidone (PVP) surface

All of our titania particles can be surface functionalized. Depending on the customer’s needs, we are able to modify the surface of TiO2 with a variety of organic ligands, both physisorbed and covalently linked. Methods are available to bind silanes to the surface of TiO2 nanoparticles; for example, hydrophobic alkyl silanes can be used to increase the compatibility of TiO2 with polar organic solvents.

Properties of Titanium Dioxide

The unique morphology and homogeneity of our titania nanoparticles makes them ideal for use in a variety of applications, including:

  • Photocatalysis
  • Photovoltaics
  • Facet-selective catalysis
  • Advanced pigments
  • High refractive index optical coatings

Due to the high refractive index (~2.5) and large bandgap (~3.2 eV) of anatase TiO2, titania nanoparticles have excellent optical properties and scatter strongly throughout the visible spectrum. TiO2 exhibits a much “whiter” color than lower refractive index materials such as silica; for this reason, TiO2 is far and away the most ubiquitous white pigment in the world. Small, well-dispersed particles, such as our titania nanorods, will appear opalescent in solution, providing unique optical effects for coatings and cosmetics.

Titania is also notable for both its strong absorbance in the UV spectrum as well as its exceptional chemical stability, making it one of the most popular materials used in photocatalytic applications. With an appropriate co-catalyst deposited on its surface, titania is able to split water into hydrogen and oxygen under solar irradiation. When combined with an appropriate dye, titania nanoparticles are a critical component in dye-sensitized solar cells (DSSCs), and more recently they have been investigated for use in other classes of photovoltaics. The finely-tuned structures of our TiO2 nanomaterials make them an interesting candidate for basic energy research, as the effects of the particle morphology on carrier lifetime and transport may help facilitate improvements for solar energy conversion applications.

In addition to applications as a pigment and a UV-active photocatalyst, titania nanoparticles can be utilized in lieu of silica in instances where silica performs poorly. For instance, unlike silica, which is an acidic oxide and readily dissolves in high pH conditions, titania is a basic oxide and is stable at all but the lowest pHs. TiO2 coatings on plasmonic nanoparticles cause a much greater shift in the plasmon band versus silica shells due to the high refractive index of titania. Titania surfaces also exhibit unique selective adsorption properties for certain important biomolecules, notably phosphorylated proteins, a property not commonly seen in unmodified silica.

The surfaces and dispersion media of our titania nanorods can be tuned for your desired application. Contact us for more information on our custom fabrication capabilities.

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