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Chromium Oxide Powder
(Spray Dried)
Cr2O3
1308-38-9
Product
Product Code
Order or Specifications
99% Chromium Oxide Powder
CR-OX-02-P
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99.9% Chromium Oxide Powder
CR-OX-03-P
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99.99% Chromium Oxide Powder
CR-OX-04-P
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99.999% Chromium Oxide Powder
CR-OX-05-P
 Contact American Elements
American Elements specializes in producing spray dry and non-spray dry high purity Chromium Oxide Powder with the smallest possible average grain sizes for use in preparation of pressed and bonded sputtering targets and in Chemical Vapor Deposition (CVD) and Physical Vapor Deposition (PVD) processes including Thermal and Electron Beam (E-Beam) Evaporation, Low Temperature Organic Evaporation, Atomic Layer Deposition (ALD), Metallic-Organic and Chemical Vapor Deposition (MOCVD). Powders are also useful in any application where high surface areas are desired such as water treatment and in fuel cell and solar applications. Nanoparticles (See also Nanotechnology Information and Quantum Dots) also produce very high surface areas. Our standard Powder particle sizes average in the range of - 325 mesh, - 100 mesh, 10-50 microns and submicron (< 1 micron) and our spray dried powder with binder provides an extremely narrow particle size distribution (PSD) for use in thermal and plasma spray guns and other coating applications. We can also provide many materials in the nanoscale range. Materials are produced using crystallization, solid state and other ultra high purification processes such as sublimation. American Elements specializes in producing custom compositions for commercial and research applications and for new proprietary technologies. American Elements also casts any of the rare earth metals and most other advanced materials into rod, bar or plate form, as well as other machined shapes and through other processes such as nanoparticles (See also application discussion at Nanotechnology Information and at Quantum Dots) and in the form of solutions and organometallics. We also produce Chromium Oxide as pellets, pieces, tablets, and sputtering target. Oxide compounds are not conductive to electricity. However, certain perovskite structured oxides are electronically conductive finding application in the cathode of solid oxide fuel cells and oxygen generation systems. See research below. Other shapes are available by request.

Chromium is a Block D, Group 6, Period 4 element. The electronic configuration is [Ar] 3d5 4s1. In its elemental form chromium's CAS number is 7440-47-3. The chromium atom has a radius of 124.9.pm and it's Van der Waals radius is 200.pm. Chromium is highly resistant to corrosion. This has led to its use in numerous alloying and steel producing applications. When chromium is added to glass or ceramic glazes, it produces a brilliant green. Chromium is available as metal and compounds with purities from 99% to 99.999% (ACS grade to ultra-high purity); metals in the form of foil, sputtering target, and rod, and compounds as submicron and nanopowder. It is also used as a paint pigment for this purpose.
Formula CAS No. Appearance Molecular Weight
Cr2O3 20281-00-9 Green 151.99
PRODUCT CATALOG Submicron & Nanopowder Tolling Ultra High Purity Sputtering Target Crystal Growth Rod, Plate, Powder, etc.

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Recent Research & Development for Chromium

  • Comparison of in vitro Cr(VI) reduction by CFEs of chromate resistant bacteria isolated from chromate contaminated soil. Bioresour Technol. 2008 Jul;99(10):4130-7. Epub 2007 Oct 24.

  • Kinetic and equilibrium modeling of chromium (VI) biosorption on fresh and spent Spirulina platensis/Chlorella vulgaris biomass. Bioresour Technol. 2008 Jun;99(9):3600-8. Epub 2007 Sep 27.

  • Molecular basis of chromium insulin interactions. Biochem Biophys Res Commun. 2008 May 2;369(2):725-9. Epub 2008 Feb 26.

  • Biosorption of chromium(VI) using a Sargassum sp. packed-bed column. Bioresour Technol. 2008 May;99(8):3094-9. Epub 2007 Aug 6.

  • Low-cost supports used to immobilize fungi and reliable technique for removal hexavalent chromium in wastewater. Bioresour Technol. 2008 May;99(7):2234-2241. Epub 2007 Jul 2.

  • Removal of chromium(VI) from water and wastewater using surfactant modified coconut coir pith as a biosorbent. Bioresour Technol. 2008 May;99(7):2218-25. Epub 2007 Jun 29.

  • Hexavalent chromium uptake and its effects on mineral uptake, antioxidant defence system and photosynthesis in Amaranthus viridis L. Bioresour Technol. 2008 May;99(7):2628-36. Epub 2007 Jun 13.

  • Trace element exposure in the environment from MSW landfill leachate sediments measured by a sequential extraction technique. J Hazard Mater. 2008 May 1;153(1-2):751-8. Epub 2007 Sep 8.

  • Biosorption of Cr(VI) by three different bacterial species supported on granular activated carbon-A comparative study. J Hazard Mater. 2008 May 1;153(1-2):799-809. Epub 2007 Sep 12.

  • Hexavalent chromium reduction with scrap iron in continuous-flow system Part 1: Effect of feed solution pH. J Hazard Mater. 2008 May 1;153(1-2):655-62. Epub 2007 Sep 6.

  • Solid phase extraction method for the determination of iron, lead and chromium by atomic absorption spectrometry using Amberite XAD-2000 column in various water samples. J Hazard Mater. 2008 May 1;153(1-2):454-61. Epub 2007 Aug 31.

  • Characterization of the fine fraction of the argon oxygen decarburization with lance (AOD-L) sludge generated by the stainless steelmaking industry. J Hazard Mater. 2008 May 1;153(1-2):89-95. Epub 2007 Aug 15.

  • Kinetic and thermodynamic studies of the biosorption of Cr(VI) by Pinus sylvestris Linn. J Hazard Mater. 2008 May 1;153(1-2):52-9. Epub 2007 Aug 12.

  • Geochemical stability of chromium in sediments from the lower Hackensack River, New Jersey. Sci Total Environ. 2008 May 1;394(1):103-11. Epub 2008 Mar 4.

  • Hexavalent chromium causes the oxidation of thioredoxin in human bronchial epithelial cells. Toxicology. 2008 Apr 18;246(2-3):222-33. Epub 2008 Feb 2.

  • Rapid quantification of global DNA methylation by isocratic cation exchange high-performance liquid chromatography. Anal Biochem. 2008 Apr 15;375(2):354-60. Epub 2008 Jan 9.

  • Purification of spent chromium bath by membrane electrolysis. J Hazard Mater. 2008 Apr 15;152(3):960-7. Epub 2007 Aug 6.

  • Evaluation of batch adsorption of chromium ions on natural and crosslinked chitosan membranes. J Hazard Mater. 2008 Apr 15;152(3):1155-63. Epub 2007 Aug 3.

  • Chromate reduction by waste iron from electroplating wastewater using plug flow reactor. J Hazard Mater. 2008 Apr 15;152(3):1092-7. Epub 2007 Jul 31.

  • Anion effects on the electrochemical regeneration of Ce(IV) in nitric acid used for etching chromium. J Hazard Mater. 2008 Apr 15;152(3):922-8. Epub 2007 Jul 27.

 

 

 

 

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