American Elements

Nickel Cerium Alloy Powder
Ni Ce Metal Alloy Powder

Product
Product Code
Order or Specifications
99% Nickel Cerium Alloy Powder
NI-CE-M-02-P
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99.9% Nickel Cerium Alloy Powder
NI-CE-M-03-P
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99.99% Nickel Cerium Alloy Powder
NI-CE-M-04-P
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99.999% Nickel Cerium Alloy Powder
NI-CE-M-05-P
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Nickel Cerium is one of numerous metal alloys sold by American Elements under the tradename AE AlloysT . Nickel Cerium powder is used in catalysis. American Elements specializes in producing high purity Nickel Cerium 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). We can also provide many materials in the nanoscale range. See research below. We also produce Nickel as rod, ingot, pieces, pellets, disc, granules, wire, and in compound forms, such as oxide. Other shapes are available by request

Nickel is a Block D, Group 4, Period 4 element. The electronic configuration is [Ar]3d84s2. In its elemental form nickel's CAS number is 7440-02-0. The nickel atom has a radius of 149.pm and it's Van der Waals radius is 163.pm. It is extensively alloyed with iron, chromium, molybdenum, tungsten and other metals produce stainless and other anti-corrosive steel and other corrosion-resistant alloys. It is highly electronically conductive and has many applications as a result. It is the basis of the nickel hydride battery. Most recently, its conductive properties have made it an ideal component for ceramic anode formulations used in oxygen generation and solid oxide fuel cell applications. Catalytic nickel is used to hydrogenate vegetable oils. Nickel additions to glass and ceramic glazes impart a bright green. It is also used in pigments for this purpose. Nickel information, including Technical Data, Safety Data and its high purity properties, research, applications and other useful facts are discussed below. Scientific facts such as the atomic structure, ionization energy, abundance on Earth, conductivity and thermal properties are included. Nickel was first discovered by Alex Constedt in 1751.

Cerium is a Block F, Group 3, Period 6 element. The electronic configuration is [Xe]4f26s2. In its elemental form cerium's CAS number is 7440-45-1. The cerium atom has a radius of 182.5.pm and it's Van der Waals radius is 181.pm. Cerium is one of the products manufactured and distributed under the tradename AE Rare Earths. Cerium is the most abundant of the rare earths metals. It is characterized chemically by having two valence states , the +3 cerous and +4 ceric states. The ceric state is the only non-trivalent rare earth ion stable in aqueous solutions. It is, therefore, strongly acidic. It is also a strong oxidizer. The cerous state closely resembles the other trivalent rare earths. The numerous commercial applications for cerium include metallurgy, glass and glass polishing, ceramics, catalysts, as the electrolyte for solid oxide fuel cells when doped with yttrium, gadolinium or samarium and in phosphors. In steel manufacturing it is used to remove free oxygen and sulfur by forming stable oxysulfides and by tying up undesirable trace elements, such as lead and antimony. It is considered to be the most efficient glass polishing agent for precision optical polishing. It is also used to decolor glass by keeping iron in its ferrous state. The ability of cerium-doped glass to block out ultra violet light is utilized in the manufacturing of medical glassware and aerospace windows. It is also used to prevent polymers from darkening in sunlight and to suppress discoloration of television glass. In steel manufacturing it is used to remove free oxygen and sulfur by forming stable oxysulfides and by tying up undesirable trace elements, such as lead and antimony. It is considered to be the most efficient glass polishing agent for precision optical polishing. It is also used to decolor glass by keeping iron in its ferrous state.

Formula CAS No. Appearance Molecular Weight
Ni Ce      
PRODUCT CATALOG Submicron & Nanopowder Tolling Ultra High Purity Sputtering Target Crystal Growth Rod, Plate, Powder, etc.
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Recent Research & Development for Nickel

  • In vitro frictional forces generated by three different ligation methods. Angle Orthod. 2008 Sep;78(5):917-21.

  • Osteotomy assisted maxillary posterior impaction with miniplate anchorage. Angle Orthod. 2008 Jul;78(4):737-44.

  • Equilibrium, thermodynamic and kinetic studies for the biosorption of aqueous lead(II), cadmium(II) and nickel(II) ions on Spirulina platensis. J Hazard Mater. 2008 Jun 15;154(1-3):973-980. Epub 2007 Nov 9.

  • Integrated bacterial process for the treatment of a spent nickel catalyst. J Hazard Mater. 2008 Jun 15;154(1-3):804-10. Epub 2007 Nov 4.

  • Template synthesis of novel carboxamide dinuclear copper (II) complex: spectral characterization and reactivity towards calf-thymus DNA. Biometals. 2008 Jun;21(3):299-310. Epub 2007 Oct 26.

  • Effects of inoculation of plant-growth promoting bacteria on Ni uptake by Indian mustard. Bioresour Technol. 2008 Jun;99(9):3491-8. Epub 2007 Sep 10.

  • A new chlorophycean nickel hyperaccumulator. Bioresour Technol. 2008 Jun;99(9):3930-4. Epub 2007 Sep 10.

  • Magnetic susceptibility and electrical conductivity of metallic dental materials and their impact on MR imaging artifacts. Dent Mater. 2008 Jun;24(6):715-23. Epub 2007 Sep 19.

  • A mathematical model of the in vitro keratinocyte response to chromium and nickel exposure. Toxicol In Vitro. 2008 Jun;22(4):1088-93. Epub 2008 Feb 9.

  • Investigative studies for the use of an inactive asbestos mine as a disposal site for asbestos wastes. J Hazard Mater. 2008 May 30;153(3):955-65. Epub 2007 Sep 21.

  • Influence of pH, curing time and environmental stress on the immobilization of hazardous waste using activated fly ash. J Hazard Mater. 2008 May 30;153(3):1103-9. Epub 2007 Sep 25.

  • Nickel(II) complexes with Schiff-base ligands derived from epimeric pyranose backbones as 2,3-chelators: modeling the coordination chemistry of chitosan. Carbohydr Res. 2008 May 19;343(7):1266-77. Epub 2008 Feb 5.

  • The intrinsic dynamics and function of nickel-binding regulatory protein: insights from elastic network analysis. Biophys J. 2008 May 15;94(10):3769-78. Epub 2008 Jan 28.

  • Critical overview of Nitinol surfaces and their modifications for medical applications. Acta Biomater. 2008 May;4(3):447-67. Epub 2008 Feb 6.

  • Anisotropy of nickel release and corrosion in austenitic stainless steels. Acta Biomater. 2008 May;4(3):680-5. Epub 2007 Nov 20.

  • Nickel alterations of TLR2-dependent chemokine profiles in lung fibroblasts are mediated by COX-2. Am J Respir Cell Mol Biol. 2008 May;38(5):591-9. Epub 2007 Dec 20.

  • Force magnitude and duration effects on amount of tooth movement and root resorption in the rat molar. Angle Orthod. 2008 May;78(3):502-9.

  • Determination of Trace Elements in Jinqi, a Traditional Chinese Medicine. Biol Trace Elem Res. 2008 May;122(2):122-126. Epub 2008 Jan 5.

  • Biosorption of nickel(II) ions by baker's yeast: Kinetic, thermodynamic and desorption studies. Bioresour Technol. 2008 May;99(8):3100-9. Epub 2007 Aug 1.

  • Direct effects of heavy metal pollution on the immune function of a geometrid moth, Epirrita autumnata. Chemosphere. 2008 May;71(10):1840-4. Epub 2008 Mar 21.

 

 

 

 

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