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Ytterbium Telluride Sputtering Target |
High Purity YbTe Sputtering Target
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| Product |
Product Code | Order or Specifications |
| (2N) 99% Ytterbium Telluride Sputtering Target |
YB-TE-02-ST |
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| (2N5) 99.5% Ytterbium Telluride Sputtering Target |
YB-TE-025-ST |
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| (3N) 99.9% Ytterbium Telluride Sputtering Target |
YB-TE-03-ST |
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| (3N5) 99.95% Ytterbium Telluride Sputtering Target |
YB-TE-035-ST |
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| (4N) 99.99% Ytterbium Telluride Sputtering Target |
YB-TE-04-ST |
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| (5N) 99.999% Ytterbium Telluride Sputtering Target |
YB-TE-05-ST |
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 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 Ytterbium Telluride 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 Sputtering Targets for thin film are available monoblock or bonded with dimensions and configurations up to 820 mm with hole drill locations and threading, beveling, grooves and backing designed to work with both older sputtering devises as well as the latest process equipment, such as 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. "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 nanoparticles. We also produce Ytterbium as disc, granules, ingot, pellets, pieces, powder, and rod. Other shapes are available by request.
 Ytterbium has 2 valency state, +2 +3. The number of electrons in each of Ytterbium's shells is 2, 8, 18, 32, 8, 2 and its electronic configuration is [Xe]4f14 6s2. In its metallic form Ytterbium's CAS number is 7440-64-4 and its standard state at 20 şC is a solid. The Ytterbium atom has a radius of 194 pm and it's Van der Waals radius is unknown. Ytterbium is considered to be fairly toxic. On the periodic table, Ytterbium is a Block F, Group 3, Period 6  element. Ytterbium is being applied to numerous fiber amplifier and fiber optic technologies and in various lasing applications. Ytterbium is found in monazite sand as well as the ores euxenite and xenotime and 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 has a single dominant absorption band at 985 in the infra-red making it useful in silicon photocells to directly convert radiant energy to electricity. Ytterbium metal increases its electrical resistance when subjected to very high stresses. This property is used in stress gauges for monitoring ground deformations from earthquakes and nuclear explosions.The name Ytterbium originates after the name for the Swedish village of Ytterby. See Ytterbium research below.
 Tellurium is a Block P, Group 16, Period 5 element. The number of electrons in each of Tellurium's shells is 2, 8, 18, 18, 6 and its electronic configuration is [Kr] 4d10 5s2 5p4. In its elemental form tellurium's CAS number is 13494-80-9. The tellurium atom has a radius of 143.2.pm and it's Van der Waals radius is 206.pm. Tellurium is a p-type semiconductor, and shows greater conductivity in certain directions, depending on alignment of the atoms. It is grown in crystalline form with other elements such as indium telluride. Its conductivity increases slightly with exposure to light which makes many tellurides candidates for solar energyapplications. Tellurium improves the machinability of copper and stainless steel, and its addition to lead decreases the corrosive action of sulfuric acid on lead and improves its strength and hardness.  Tellurium is used as  a basic ingredient in blasting caps, and is added to cast iron for chill control. Tellurium is used in ceramics. Bismuth telluride has been used in thermoelectric devices. Iron 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. Tellurium was first discovered by Franz Muller von Reichenstein in 1782. The name Tellurium originates from the Greek word 'Tellus' meaning Earth. See Tellurium research below. |
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Recent Research & Development for Ytterbium
- Controlled excitation of scar modes in passive and active multimode chaotic fiber. Michel C, Doya V, Tascu S, Blanc W, Legrand O, Mortessagne F. Appl Opt. 2009 Nov 1;48(31):G163-8. doi: 10.1364/AO.48.00G163. PMID: 19881639 [PubMed - in process]
- High-power nanosecond ytterbium-doped fiber laser passively synchronized with a femtosecond Ti:sapphire laser. Yan M, Li W, Hao Q, Li Y, Yang K, Zhou H, Zeng H. Opt Lett. 2009 Nov 1;34(21):3331-3333. doi: 10.1364/OL.34.003331. PMID: 19881584 [PubMed - as supplied by publisher]
- Femtosecond and picosecond laser drilling of metals at high repetition rates and average powers. Ancona A, Döring S, Jauregui C, Röser F, Limpert J, Nolte S, Tünnermann A. Opt Lett. 2009 Nov 1;34(21):3304-3306. doi: 10.1364/OL.34.003304. PMID: 19881575 [PubMed - as supplied by publisher]
- Ytterbium(III) triflate catalyzed tandem Friedel-Crafts alkylation/hydroarylation of propargylic alcohols with phenols as an expedient route to indenols. Zhang X, Teo WT, Chan PW. Org Lett. 2009 Nov 5;11(21):4990-3. PMID: 19863152 [PubMed - in process]
- Complexation of bisphosphonates with ytterbium(III): Application of phosphate and ATP detection assay based on Yb(3+)-pyrocatechol violet. Gaidamauskas E, Parker H, Kashemirov BA, Holder AA, Saejueng K, McKenna CE, Crans DC. J Inorg Biochem. 2009 Sep 20. [Epub ahead of print] PMID: 19850352 [PubMed - as supplied by publisher]
- Single-frequency 1 W hybrid Brillouin/ytterbium fiber laser. Guan W, Marciante JR. Opt Lett. 2009 Oct 15;34(20):3131-2. doi: 10.1364/OL.34.003131. PMID: 19838249 [PubMed - in process]
- Intense green and red upconversion emissions from Ho(3+) in presence of Yb(3+) in Li:TeO(2) glass. Giri NK, Rai SB, Rai A. Spectrochim Acta A Mol Biomol Spectrosc. 2009 Sep 19. [Epub ahead of print] PMID: 19836300 [PubMed - as supplied by publisher]
- Single-frequency 1060 nm semiconductor-optical-amplifier-based fiber laser with 40 nm tuning range. Tang M, Tian X, Lu X, Fu S, Shum PP, Zhang Z, Liu M, Cheng Y, Liu J. Opt Lett. 2009 Jul 15;34(14):2204-6. doi: 10.1364/OL.34.002204. PMID: 19823549 [PubMed - in process]
- Two-wavelength ytterbium-doped fiber laser with sustained relaxation oscillation. Pan L, Utkin I, Fedosejevs R. Appl Opt. 2009 Oct 10;48(29):5484-9. doi: 10.1364/AO.48.005484. PMID: 19823230 [PubMed - in process]
- Lewis Acid-Mediated beta-Hydride Abstraction Reactions of Divalent M(C(SiHMe(2))(3))(2)THF(2) (M = Ca, Yb). Yan K, Upton BM, Ellern A, Sadow AD. J Am Chem Soc. 2009 Oct 1. [Epub ahead of print] PMID: 19795868 [PubMed - as supplied by publisher]
- Observation of a large atomic parity violation effect in ytterbium. Tsigutkin K, Dounas-Frazer D, Family A, Stalnaker JE, Yashchuk VV, Budker D. Phys Rev Lett. 2009 Aug 14;103(7):071601. Epub 2009 Aug 10. PMID: 19792630 [PubMed]
- Synthesis and characterization of Sn(II), Pb(II) and Yb(II) complexes supported by [C(Ph(2)P=NSiMe3){6-(2-RC5H3N)}]2- or [CH(Ph2P=NSiMe3){6-(2-RC5H3N)}]- (R = 3,5-dimethyl-1-pyrazolyl or iminophosphoranyl) ligands. Chai ZY, Wang ZX. Dalton Trans. 2009 Oct 14;(38):8005-12. Epub 2009 Aug 10. PMID: 19771363 [PubMed - in process]
- Observation of extreme temporal events in CW-pumped supercontinuum. Mussot A, Kudlinski A, Kolobov M, Louvergneaux E, Douay M, Taki M. Opt Express. 2009 Sep 14;17(19):17010-5. doi: 10.1364/OE.17.017010. PMID: 19770919 [PubMed - in process]
- Large-mode-area ytterbium-doped fiber amplifier with distributed narrow spectral filtering and reduced bend sensitivity. Alkeskjold TT. Opt Express. 2009 Sep 14;17(19):16394-405. doi: 10.1364/OE.17.016394. PMID: 19770853 [PubMed - in process]
- Synthesis, structure, and reaction chemistry of samarium(II), europium(II), and ytterbium(II) complexes of the unsymmetrical benzamidinate ligand [PhC(NSiMe(3))(NC(6)H(3)Pr(i)(2)-2,6)](-). Yao S, Chan HS, Lam CK, Lee HK. Inorg Chem. 2009 Oct 19;48(20):9936-46. PMID: 19757783 [PubMed - in process]
- Broadly tunable carrier envelope phase stable optical parametric amplifier pumped by a monolithic ytterbium fiber amplifier. Fernández A, Zhu L, Verhoef AJ, Sidorov-Biryukov D, Pugzlys A, Baltuska A, Liao KH, Liu ChH, Galvanauskas A, Kane S, Holzwarth R, Ilday FO. Opt Lett. 2009 Sep 15;34(18):2799-801. doi: 10.1364/OL.34.002799. PMID: 19756109 [PubMed - in process]
- Structure and photophysics of near-infrared emissive ytterbium(III) monoporphyrinate acetate complexes having neutral bidentate ligands. He H, Sykes AG, May PS, He G. Dalton Trans. 2009 Sep 28;(36):7454-61. Epub 2009 Jul 27. PMID: 19727467 [PubMed - in process]
- BaLn2Se4 (Ln = Er, Tm and Yb). Bugaris DE, Ibers JA. Acta Crystallogr C. 2009 Sep;65(Pt 9):i60-2. Epub 2009 Aug 22. PMID: 19726843 [PubMed - in process]
- Experimental investigation of radiation effect on erbium-ytterbium co-doped fiber amplifier for space optical communication in low-dose radiation environment. Ma J, Li M, Tan L, Zhou Y, Yu S, Ran Q. Opt Express. 2009 Aug 31;17(18):15571-7. doi: 10.1364/OE.17.015571. PMID: 19724555 [PubMed - in process]
- Quantum-limited noise performance of a femtosecond all-fiber ytterbium laser. Prochnow O, Paschotta R, Benkler E, Morgner U, Neumann J, Wandt D, Kracht D. Opt Express. 2009 Aug 31;17(18):15525-33. doi: 10.1364/OE.17.015525. PMID: 19724550 [PubMed - in process]
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