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Yttria Stabilized Zirconia Nanoparticles / Nanopowder

Linear Formula:

Y2O3• ZrO2

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PRODUCT Product Code ORDER SAFETY DATA TECHNICAL DATA
Yttria Stabilized Zirconia Nanopowder
ZRO-Y08-01-NP-97 Pricing > SDS > Data Sheet >

Properties

Appearance

Powder

Melting Point

N/A

Boiling Point

N/A

Density

N/A

Health & Safety Info  |  MSDS / SDS

Signal Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Statements N/A
RTECS Number N/A
Transport Information N/A
WGK Germany N/A
MSDS / SDS

About

High Purity, D50 = +10 nanometer (nm) by SEMYttria stabilized Zirconia or Zirconium Oxide Nanopowder or Nanoparticles (YSZ), nanodots or nanocrystals are white high surface area particles available fully stabilized (8 mol%) or partially stabilized ( 3 mol%) or doped with yttria (yttrium oxide). Nanoscale Yttria stabilized Zirconia or Zirconium Oxide is typically 5 - 100 nanometers (nm) with specific surface area (SSA) in the 25 - 50 m2/g range. Nano Yttria stabilized Zirconia or Zirconium Oxide Particles are also available in Ultra high purity and high purity and coated and dispersed forms. They are also available as a dispersion through the AE Nanofluid production group. Nanofluids are generally defined as suspended nanoparticles in solution either using surfactant or surface charge technology. Nanofluid dispersion and coating selection technical guidance is also available. Other nanostructures include nanorods, nanowhiskers, nanohorns, nanopyramids and other nanocomposites. Surface functionalized nanoparticles allow for the particles to be preferentially adsorbed at the surface interface using chemically bound polymers. Development research is underway in Nano Electronics and Photonics materials, such as MEMS and NEMS, Bio Nano Materials, such as Biomarkers, Bio Diagnostics & Bio Sensors, and Related Nano Materials, for use in Polymers, Textiles, Fuel Cell Layers, Composites and Solar Energy materials. Nanopowders are analyzed for chemical composition by ICP, particle size distribution (PSD) by laser diffraction, and for Specific Surface Area (SSA) by BET multi-point correlation techniques. Novel nanotechnology applications also include Quantum Dots. High surface areas can also be achieved using solutions and using thin film by sputtering targets and evaporation technology using pellets, rod and foil. Applications for Yttria stabilized Zirconia or Zirconium Oxide nanocrystals include as in micro-ceramics, in solid oxide fuel cell (SOFC) electrolyte microlayers or films, and in coatings, thermal coatings, plastics, nanowire, nanofiber and textiles and in certain advanced ceramic applications. Yttria stabilized Zirconia or Zirconium Oxide Nano Particles are generally immediately available in most volumes. American Elements produces to many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information is available as is a Reference Calculator for converting relevant units of measurement.

Synonyms

YSZ Nanopowder, Yttrium stabilized zirconium nanopowder, yttria stabilized zirconia nanoparticles

Chemical Identifiers

Linear Formula

Y2O3• ZrO2

Packaging Specifications

Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Shipping documentation includes a Certificate of Analysis and Safety Data Sheet (SDS). Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes, and 36,000 lb. tanker trucks.

Related Products & Element Information

See more Yttrium products. Yttrium (atomic symbol: Y, atomic number: 39) is a Block D, Group 3, Period 5 element with an atomic weight of 88.90585. Yttrium Bohr ModelThe number of electrons in each of yttrium's shells is [2, 8, 18, 9, 2] and its electron configuration is [Kr] 4d1 5s2. The yttrium atom has a radius of 180 pm and a Van der Waals radius of 219 pm. Yttrium was discovered by Johann Gadolin in 1794 and first isolated by Carl Gustav Mosander in 1840. In its elemental form, Yttrium has a silvery white metallic appearance. Yttrium has the highest thermodynamic affinity for oxygen of any element. Elemental YttriumYttrium is not found in nature as a free element and is almost always found combined with the lanthanides in rare earth minerals. While not part of the rare earth series, it resembles the heavy rare earths which are sometimes referred to as the "yttrics" for this reason. Another unique characteristic derives from its ability to form crystals with useful properties. The name yttrium originated from a Swedish village near Vaxholm called Yttbery where it was discovered.

See more Zirconium products. Zirconium (atomic symbol: Zr, atomic number: 40) is a Block D, Group 4, Period 5 element with an atomic weight of 91.224. Zirconium Bohr ModelThe number of electrons in each of Zirconium's shells is 2, 8, 18, 10, 2 and its electron configuration is [Kr] 4d2 5s2. The zirconium atom has a radius of 160 pm and a Van der Waals radius of 186 pm. Zirconium was discovered by Martin Heinrich Klaproth in 1789 and first isolated by Jöns Jakob Berzelius in 1824. In its elemental form, zirconium has a silvery white appearance that is similar to titanium. Zirconium's principal mineral is zircon (zirconium silicate). Elemental ZirconiumZirconium is commercially produced as a byproduct of titanium and tin mining and has many applications as a opacifier and a refractory material. It is not found in nature as a free element. The name of zirconium comes from the mineral zircon, the most important source of zirconium, and from the Persian wordzargun, meaning gold-like.

Recent Research

Resin-based Yttrium-90 microspheres for unresectable and failed first-line chemotherapy intrahepatic cholangiocarcinoma: preliminary results., Jia, Zhongzhi, Paz-Fumagalli Ricardo, Frey Gregory, Sella David M., J McKinney Mark, and Wang Weiping , J Cancer Res Clin Oncol, 2017 Mar, Volume 143, Issue 3, p.481-489, (2017)

Ln polyoxocations: yttrium oxide solution speciation & solution deposited thin films., Marsh, David A., Goberna-Ferrón Sara, Baumeister Mary K., Zakharov Lev N., Nyman May, and Johnson Darren W. , Dalton Trans, 2017 Jan 17, Volume 46, Issue 3, p.947-955, (2017)

Resin versus Glass Microspheres for Yttrium-90 Transarterial Radioembolization: Comparing Survival in Unresectable Hepatocellular Carcinoma using Pretreatment Partition Model Dosimetry., VAN DER Gucht, Axel, Jreige Mario, Denys Alban, Blanc-Durand Paul, Boubaker Ariane, Pomoni Anastasia, Mitsakis Periklis, Silva-Monteiro Marina, Gnesin Silvano, Nicod-Lalonde Marie, et al. , J Nucl Med, 2017 Jan 12, (2017)

Congenital Plaque-type Glomuvenous Malformation: 11 Years of Follow-up and Response to Treatment With the Combined Pulsed-Dye and Neodymium:Yttrium-Aluminum-Garnet Laser., Vargas-Navia, N, Baselga E, Muñoz-Garza F Z., and Puig L , Actas Dermosifiliogr, 2017 Jan - Feb, Volume 108, Issue 1, p.72-74, (2017)

Phase II Study of Yttrium-90-Ibritumomab Tiuxetan as Part of Reduced-Intensity Conditioning (with Melphalan, Fludarabine ± Thiotepa) for Allogeneic Transplantation in Relapsed or Refractory Aggressive B Cell Lymphoma: A GELTAMO Trial., Cabrero, Monica, Martin Alejandro, Briones Javier, Gayoso Jorge, Jarque Isidro, López Javier, Grande Carlos, Heras Inmaculada, Arranz Reyes, Bernal Teresa, et al. , Biol Blood Marrow Transplant, 2017 Jan, Volume 23, Issue 1, p.53-59, (2017)

Yttrium-90 Radioembolization for Hepatocellular Carcinoma Prior to Liver Transplantation., Ettorre, Giuseppe Maria, Sandri Giovanni Battista L., Laurenzi Andrea, Colasanti Marco, Meniconi Roberto Luca, Lionetti Raffaella, Santoro Roberto, Lepiane Pasquale, Sciuto Rosa, Pizzi Giuseppe, et al. , World J Surg, 2017 Jan, Volume 41, Issue 1, p.241-249, (2017)

Yttrium-90 radioembolization for colorectal cancer liver metastases in KRAS wild-type and mutant patients: Clinical and ccfDNA studies., Janowski, E, Timofeeva O, Chasovskikh S, Goldberg M, Kim A, Banovac F, Pang D, Dritschilo A, and Unger K , Oncol Rep, 2017 Jan, Volume 37, Issue 1, p.57-65, (2017)

Robust Multifunctional Yttrium-Based Metal-Organic Frameworks with Breathing Effect., Firmino, Ana D. G., Mendes Ricardo F., Antunes Margarida M., Barbosa Paula C., Vilela Sérgio M. F., Valente Anabela A., Figueiredo Filipe M. L., Tomé João P. C., and Paz Filipe A. Almeida , Inorg Chem, 2017 Feb 06, Volume 56, Issue 3, p.1193-1208, (2017)

Facile Construction of Yttrium Pentasulfides from Yttrium Alkyl Precursors: Synthesis, Mechanism, and Reactivity., Zhang, Fangjun, Zhang Jie, and Zhou Xigeng , Inorg Chem, 2017 Feb 06, (2017)

Comparison of hair removal efficacy and side effect of neodymium:Yttrium-aluminum-garnet laser and intense pulsed light systems (18-month follow-up)., Szima, Georgina Zita, Janka Eszter Anna, Kovács Anikó, Bortély Blanka, Bodnár Edina, Sawhney Irina, Szabó Éva, and Remenyik Éva , J Cosmet Dermatol, 2017 Feb 06, (2017)

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