American Elements
Boron-Carbide Sputtering Target
BC
7440-42-8
Product
Product Code
Order or Specifications
99% Boron-Carbide Sputtering Target
B-M-02-ST
 Contact American Elements
99.5% Boron-Carbide Sputtering Target
B-M-025-ST
 Contact American Elements
99.9% Boron-Carbide Sputtering Target
B-M-03-ST
 Contact American Elements
99.95% Boron-Carbide Sputtering Target
B-M-035-ST
 Contact American Elements
99.99% Boron-Carbide Sputtering Target
B-M-04-ST
 Contact American Elements
99.999% Boron-Carbide Sputtering Target
B-M-05-ST
 Contact American Elements
See research below. American Elements specializes in producing high purity Boron-Carbide sputtering targets with the highest possible density and smallest possible average grain sizes for use in semiconductor, chemical vapor deposition (CVD) and physical vapor deposition (PVD) display and optical applications. Our standard target sizes range from 1" to 8" in diameter and from 2mm to 1/2" thick. "Sputtering" allows for thin film deposition of an ultra high purity sputtering metallic or oxide material onto another solid substrate by the controlled removal and conversion of the target material into a directed gaseous/plasma phase through ionic bombardment. We can also provide targets outside this range in addition to just about any size rectangular, annular, or oval target. 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 Boron as powder, ingot, pieces, pellets, disc, rods, and granules. Other shapes are available by request.

Boron is a Block P, Group 13, Period 2 element. The electronic configuration is [He] 2s2 2p1. In its elemental form boron's CAS number is 7440-42-8. The boron atom has a radius of 79.5.pm and it's Van der Waals radius is 200.pm. Boron has an energy band gap of 1.50 to 1.56 eV, which is higher than that of either silicon or germanium. Optical characteristics include transmitting portions of the infrared. Boron is a poor conductor of electricity at room temperature but a good conductor at high temperature. Amorphous boron is used in pyrotechnic flares to provide a distinctive green color, and in rockets as an igniter Boric acid is also an important boron compound with major markets in textile products. Boron compounds are also extensively used in the manufacture of borosilicate glasses. The isotope Boron-10 is used as a control for nuclear reactors, as a shield for nuclear radiation, and in instruments used for detecting neutrons. Boron nitride has remarkable properties and can be used to make a material as hard as diamond. The nitride also behaves like an electrical insulator but conducts heat like a metal. Boron also has lubricating properties similar to graphite. Boron was first discovered by Sir Humphry Davy and J.L Gay-Lussac in 1808. The nitride also behaves like an electrical insulator but conducts heat like a metal. Boron also has lubricating properties similar to graphite. Boron was first discovered by Sir Humphry Davy and J.L Gay-Lussac in 1808.

Formula CAS No. Appearance Molecular Weight
BC 7440-42-8 Metal
PRODUCT CATALOG Submicron & Nanopowder Tolling Ultra High Purity Sputtering Target Crystal Growth Rod, Plate, Powder, etc.
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Production Catalog Available in 32 Countries
 
Periodic table of the elements science and academic information, elements and advanced materials data, scientific presentations and all pages, designs, concepts, logos, and color schemes herein are the copyrighted proprietary rights and intellectual property of American Elements. American Elements is a U.S. Registered Trademark. © 2001-2009. American Elements. All rights reserved.

 

Recent Research & Development for Boron



  • N-Heterocyclic Carbene Boryl Radicals: A New Class of Boron-Centered Radical. Ueng SH, Solovyev A, Yuan X, Geib SJ, Fensterbank L, Laco^te E, Malacria M, Newcomb M, Walton JC, Curran DP. J Am Chem Soc. 2009 Jul 16. [Epub ahead of print] PMID: 19606860 [PubMed - as supplied by publisher]

  • Boron nitride nanotubes functionalized by a series of carbenes. Cao F, Ren W, Xu X, Ji YM, Zhao C. Phys Chem Chem Phys. 2009 Aug 7;11(29):6256-62. Epub 2009 May 15. PMID: 19606337 [PubMed - in process]

  • EORTC trial 11001: distribution of two (10)B-compounds in patients with squamous cell carcinoma of head and neck, a translational research/phase 1 trial. Wittig A, Collette L, Appelman K, Bührmann S, Jäckel MC, Jöckel KH, Schmid KW, Ortmann U, Moss R, Sauerwein WA. J Cell Mol Med. 2009 Jul 10. [Epub ahead of print] PMID: 19602035 [PubMed - as supplied by publisher]

  • Benzo- and Naphthoborepins: Blue-Emitting Boron Analogues of Higher Acenes. Mercier LG, Piers WE, Parvez M. Angew Chem Int Ed Engl. 2009 Jul 13. [Epub ahead of print] No abstract available. PMID: 19598197 [PubMed - as supplied by publisher]

  • A facile approach to hexanary chalcogenoborate featuring a 3-D chiral honeycomb-like open-framework constructed from rare-earth consolidating thiogallate-closo-dodecaborate. Guo SP, Guo GC, Wang MS, Zou JP, Zeng HY, Cai LZ, Huang JS. Chem Commun (Camb). 2009 Aug 7;(29):4366-8. Epub 2009 Jun 19. PMID: 19597594 [PubMed - in process]

  • Advanced treatment of biologically pretreated coking wastewater by electrochemical oxidation using boron-doped diamond electrodes. Zhu X, Ni J, Lai P. Water Res. 2009 Jun 23. [Epub ahead of print] PMID: 19595422 [PubMed - as supplied by publisher]

  • Influence of elastic strains on the adsorption process in porous materials: an experimental approach. Grosman A, Ortega C. Langmuir. 2009 Jul 21;25(14):8083-93. PMID: 19594184 [PubMed - in process]

  • sp(2)-sp(3) Hybridized Mixed Diboron: Synthesis, Characterization, and Copper-Catalyzed beta-Boration of alpha,beta-Unsaturated Conjugated Compounds. Gao M, Thorpe SB, Santos WL. Org Lett. 2009 Jul 13. [Epub ahead of print] PMID: 19594167 [PubMed - as supplied by publisher]

  • Clustering and nearest neighbour distances in atom-probe tomography. Philippe T, De Geuser F, Duguay S, Lefebvre W, Cojocaru-Mirédin O, Da Costa G, Blavette D. Ultramicroscopy. 2009 Jun 21. [Epub ahead of print] PMID: 19592168 [PubMed - as supplied by publisher]

  • Anisotropic Fermi Couplings Due to Large Unquenched Orbital Angular Momentum: Q-Band (1)H, (14)N, and (11)B ENDOR of Bis(trispyrazolylborate) Cobalt(II). Myers WK, Scholes CP, Tierney DL. J Am Chem Soc. 2009 Jul 10. [Epub ahead of print] PMID: 19591466 [PubMed - as supplied by publisher]

  • Synthesis of chromones and 4-hydroxyquinolines based on uncatalyzed condensations of 1-methoxy-1,3-bis(trimethylsilyloxy)-1,3-butadiene with 2-alkoxy- and 2-nitrobenzoyl chlorides and related reactions. Rahn T, Appel B, Baumann W, Jiao H, Börner A, Fischer C, Langer P. Org Biomol Chem. 2009 May 7;7(9):1931-8. Epub 2009 Mar 20. PMID: 19590790 [PubMed - in process]

  • Convection enhanced delivery of boronated EGF as a molecular targeting agent for neutron capture therapy of brain tumors. Yang W, Barth RF, Wu G, Huo T, Tjarks W, Ciesielski M, Fenstermaker RA, Ross BD, Wikstrand CJ, Riley KJ, Binns PJ. J Neurooncol. 2009 Jul 9. [Epub ahead of print] PMID: 19588228 [PubMed - as supplied by publisher]

  • Boron-enriched star-shaped molecule via cycloaddition reaction. Prasanna Dash B, Satapathy R, Maguire JA, Hosmane NS. Chem Commun (Camb). 2009 Jun 14;(22):3267-9. Epub 2009 May 6. PMID: 19587935 [PubMed - in process]

  • Nanoenergetic materials: boron nanoparticles from the pyrolysis of decaborane and their functionalisation. Bellott BJ, Noh W, Nuzzo RG, Girolami GS. Chem Commun (Camb). 2009 Jun 14;(22):3214-5. Epub 2009 May 7. PMID: 19587917 [PubMed - in process]

  • Ionic high-pressure form of elemental boron. Oganov AR, Chen J, Gatti C, Ma Y, Ma Y, Glass CW, Liu Z, Yu T, Kurakevych OO, Solozhenko VL. Nature. 2009 Jul 9;460(7252):292. No abstract available. PMID: 19587770 [PubMed - in process]

  • Theoretical investigation of the divacancies in boron nitride nanotubes: properties and surface reactivity toward various adsorbates. Zhao JX, Ding YH. J Chem Phys. 2009 Jul 7;131(1):014706. PMID: 19586116 [PubMed - in process]

  • Molecules with All Triple Bonds: OCBBCO, N(2)BBN(2), and [OBBBBO](2-) (dagger). Ducati LC, Takagi N, Frenking G. J Phys Chem A. 2009 Jul 8. [Epub ahead of print] PMID: 19586003 [PubMed - as supplied by publisher]

  • Facile Cyclometalation Reactions of Cp-Zirconium Complexes with Weakly Lewis Acidic Pendent Boron Functionalities. Emmert M, Kehr G, Fröhlich R, Erker G. Chemistry. 2009 Jul 8. [Epub ahead of print] No abstract available. PMID: 19585643 [PubMed - as supplied by publisher]

  • Acquisition-weighted MRSI for Detection and Quantification of BNCT (10)B-carrier L-p-boronophenylalanine-fructose Complex, a Phantom Study. Timonen M, Kankaanranta L, Lundbom N, Kortesniemi M, Seppälä T, Kouri M, Savolainen S, Heikkinen S. J Radiat Res (Tokyo). 2009 Jul 8. [Epub ahead of print] PMID: 19584572 [PubMed - as supplied by publisher]

  • Carborane-based pincers: synthesis and structure of SeBSe and SBS Pd(II) complexes. Spokoyny AM, Reuter MG, Stern CL, Ratner MA, Seideman T, Mirkin CA. J Am Chem Soc. 2009 Jul 15;131(27):9482-3. PMID: 19583431 [PubMed - in process]

 

 

 

 

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