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Antimony Rotatable Sputtering Target
High Purity Sb Rotatable Targets
7440-36-0
Product Product Code Order or Specifications
(2N) 99% Antimony Rotatable Sputtering Target SB-M-02-STR Contact American Elements
(2N5) 99.5% Antimony Rotatable Sputtering Target SB-M-025-STR Contact American Elements
(3N) 99.9% Antimony Rotatable Sputtering Target SB-M-03-STR Contact American Elements
(3N5) 99.95% Antimony Rotatable Sputtering Target SB-M-035-STR Contact American Elements
(4N) 99.99% Antimony Rotatable Sputtering Target SB-M-04-STR Contact American Elements
(5N) 99.999% Antimony Rotatable Sputtering Target SB-M-05-STR Contact American Elements

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 Pharmacopeia/British Pharmacopeia) and follows applicable ASTM testing standards.See safety data and research below and pricing/lead time above. American Elements specializes in producing high purity Antimony Rotatable Sputtering Targets with the highest possible density and smallest possible average grain sizes for use in semiconductor, photovoltaic, and coating applications by chemical vapor deposition (CVD) and physical vapor deposition (PVD) and optical applications. Our standard Rotatable Targets for large area thin film deposition are produced either by spray coating on a tubular substrate or casting of a solid tube. Rotary Targets are available with dimensions and configurations up to 1,000 mm in length for large area coating for solar energy or fuel cells and flip-chip applications. Research sized targets are also produced as well as custom sizes and alloys. All targets are analyzed using best demonstrated techniques including X-Ray Fluorescence (XRF), Glow Discharge Mass Spectrometry (GDMS), and Inductively Coupled Plasma (ICP). "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. Besides rotary targets we can also provide targets outside in just about any size and shape, such as rectangular, annular, or oval targets. 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 nanoparticles . We also produce Antimony as disc, granules, ingot, pellets, pieces, powder, and rod. Other shapes are available by request.

Antimony(Sb)atomic and molecular weight, atomic number and elemental symbolAntimony is a Block P, Group 15, Period 5 element. The number of electrons in each of Antimony's shells is 2, 8, 18, 18, 5 and its electronic configuration is [Kr] 4d10 5s2 5p3. In its elemental form antimony's CAS number is 7440-36-0. The antimony atom has a radius of 145.pm and it's Van der Waals radius is 200.pm. The chemical state of antimony affects the toxicity of the element and its compounds. Antimony is finding use in semiconductor technology for making infrared detectors, diodes and Hall-effect devices in crystalline structures, such as antimony telluride and gallium antimonide. Antimony is however a poor conductor of heat and electricity. It greatly increases the hardness and mechanical strength of lead. This has found applications in batteries, antifriction alloys, small arms and tracer bullets and cable sheathing. Antimony compounds are used in manufacturing flame-proofing compounds, paints, ceramic enamels, glass, and pottery glazes. Antimony is available as metal and compounds with purities from 99% to 99.9999% (ACS grade to ultra-high purity); metals in the form of foil, sputtering target, and rod, and compounds as submicron and nanopowder. See Antimony research below.

Formula CAS No. Appearance Molecular Weight
Sb 7440-36-0 Silvery 121.75
PRODUCT CATALOG Foil Submicron & Nanopowder Tolling Ultra High Purity Sputtering Target Crystal Growth Rod, Plate, Powder, etc.
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Recent Research & Development for Antimony

  • Synthesis of four different antimony(III) O,O'-dialkyldithiophosphates: Characterization by (31)P CP/MAS NMR, single-crystal X-ray diffraction, and adsorption at a stibnite surface (Sb(2)S(3)). Larsson AC, Ivanov MA, Gerasimenko AV, Ivanov AV. J Colloid Interface Sci. 2011 Nov 6. [Epub ahead of print] PMID: 22115160 [PubMed - as supplied by publisher]

  • Sensing of Aqueous Fluoride Anions by Cationic Stibine-Palladium Complexes. Wade CR, Ke IS, Gabbaï FP. Angew Chem Int Ed Engl. 2011 Nov 24. doi: 10.1002/anie.201106242. [Epub ahead of print] PMID: 22113959 [PubMed - as supplied by publisher]

  • Electrical characterization of n/p-type nickel silicide/silicon junctions by Sb segregation. Jun M, Park Y, Hyun Y, Choi SJ, Zyung T, Jang M. J Nanosci Nanotechnol. 2011 Aug;11(8):7339-42. PMID: 22103191 [PubMed - in process]

  • Hydride generation in-atomizer collection atomic absorption spectrometry for the determination of antimony in acetic acid leachates from pewter cups. Dessuy MB, Kratzer J, Vale MG, Welz B, Dedina J. Talanta. 2011 Dec 15;87:255-61. Epub 2011 Oct 17. PMID: 22099676 [PubMed - in process]

  • Electrical and optical performance of transparent conducting oxide films deposited by electrostatic spray assisted vapour deposition. Hou X, Choy KL, Liu JP. J Nanosci Nanotechnol. 2011 Sep;11(9):8114-9. PMID: 22097539 [PubMed - in process]

  • Biomolecule-assisted green route to Sb2S3 crystals with three-dimensional dandelionlike patterns. Xiang W, Ji G, Wei J, Yang Y, Yuan H, Liu X. J Nanosci Nanotechnol. 2011 Sep;11(9):7820-32. PMID: 22097493 [PubMed - in process]

  • Use of antimony in the treatment of leishmaniasis: current status and future directions. Haldar AK, Sen P, Roy S. Mol Biol Int. 2011;2011:571242. Epub 2011 Jun 8. PMID: 22091408 [PubMed - in process]

  • Comparison between one day and two days protocols for sentinel node mapping of breast cancer patients. Ali J, Alireza R, Mostafa M, Naser FM, Bahram M, Ramin S. Hell J Nucl Med. 2011 Sep;14(3):313-5. PMID: 22087458 [PubMed - in process]

  • Identification of Gunshot Residues in Fabric Targets Using Sector Field Inductively Coupled Plasma Mass Spectrometry Technique and Ternary Graphs* Freitas JC, Sarkis JE, Neto ON, Viebig SB. J Forensic Sci. 2011 Nov 10. doi: 10.1111/j.1556-4029.2011.01956.x. [Epub ahead of print] PMID: 22074259 [PubMed - as supplied by publisher]

  • MAP Kinase1 of Leishmania Donovani: Down Regulation Associates With Antimony Resistance in Field Isolates. Ashutosh, Garg M, Sundar S, Duncan R, Nakhasi HL, Goyal N. Antimicrob Agents Chemother. 2011 Nov 7. [Epub ahead of print] PMID: 22064540 [PubMed - as supplied by publisher]

  • Use of carbon nanotubes and electrothermal atomic absorption spectrometry for the speciation of very low amounts of arsenic and antimony in waters. López-García I, Rivas RE, Hernández-Córdoba M. Talanta. 2011 Oct 30;86:52-7. Epub 2011 Aug 27. PMID: 22063510 [PubMed - in process]

  • Frequency of use controls chemical leaching from drinking-water containers subject to disinfection. Andra SS, Makris KC, Shine JP. Water Res. 2011 Dec 15;45(20):6677-87. Epub 2011 Oct 12. PMID: 22040714 [PubMed - in process]

  • Antimony leaching from MSWI bottom ash: Modelling of the effect of pH and carbonation. Cornelis G, Gerven TV, Vandecasteele C. Waste Manag. 2011 Oct 27. [Epub ahead of print] PMID: 22035902 [PubMed - as supplied by publisher]

  • Discovery of Safe and Orally Effective 4-Aminoquinaldine Analogues as Apoptotic Inducers with Activity against Experimental Visceral Leishmaniasis. Palit P, Hazra A, Maity A, Vijayan RS, Manoharan P, Banerjee S, Mondal NB, Ghoshal N, Ali N. Antimicrob Agents Chemother. 2011 Oct 24. [Epub ahead of print] PMID: 22024817 [PubMed - as supplied by publisher]

  • Bone marrow leishmaniasis: a review of situation in Thailand. Wiwanitkit V. Asian Pac J Trop Med. 2011 Oct;4(10):757-9. PMID: 22014727 [PubMed - in process]

  • Spectroelectrochemistry of cytochrome c and azurin immobilized in nanoporous antimony-doped tin oxide. Kwan P, Schmitt D, Volosin AM, McIntosh CL, Seo DK, Jones AK. Chem Commun (Camb). 2011 Dec 7;47(45):12367-9. Epub 2011 Oct 20. PMID: 22011849 [PubMed - in process]

  • Structural diversity for phosphine complexes of stibenium and stibinidenium cations. Chitnis SS, Peters B, Conrad E, Burford N, McDonald R, Ferguson MJ. Chem Commun (Camb). 2011 Nov 8;47(45):12331-3. Epub 2011 Oct 20. PMID: 22011846 [PubMed - in process]

  • Pressure-induced disordered substitution alloy in sb(2)te(3). Zhao J, Liu H, Ehm L, Chen Z, Sinogeikin S, Zhao Y, Gu G. Inorg Chem. 2011 Nov 21;50(22):11291-3. Epub 2011 Oct 18. PMID: 22007692 [PubMed - in process]

  • Electrospun antimony doped tin oxide (ATO) nanofibers as a versatile conducting matrix. Ostermann R, Zieba R, Rudolph M, Schlettwein D, Smarsly BM. Chem Commun (Camb). 2011 Nov 28;47(44):12119-21. Epub 2011 Oct 14. PMID: 22003493 [PubMed - in process]

  • Multi-metal(loid) methylation in methanoarchaea is linked to central intermediates of methanogenesis. Thomas F, Diaz-Bone RA, Wuerfel O, Huber B, Weidenbach K, Schmitz RA, Hensel R. Appl Environ Microbiol. 2011 Oct 14. [Epub ahead of print] PMID: 22003009 [PubMed - as supplied by publisher]

 

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