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Abstrakty
Shuttle-like BaMoO4 microstructure has been successfully synthesized from Ba(NO3)2 4H2 O and Na2 MoO4 2H2 O as starting materials in ethylene glycol solvent containing 20 mL 5 M NaOH by microwave radiation at 180Wfor 30 min. The assynthesized BaMoO4 product was characterized by X-ray diffraction (XRD), Fourier transform infrared (FT-IR) spectroscopy, Raman spectrophotometry, scanning electron microscopy (SEM), transmission electron microscopy (TEM) and photoluminescence (PL) spectroscopy. XRD patterns revealed that the products was tetragonal BaMoO4 phase. SEM and TEM characterization showed that the product had a shuttle-like BaMoO4 microstructure. PL of the shuttle-like BaMoO4 microstructure showed a maximum emission at 466 nm excited by 280 nm wavelength.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
537--540
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
- Department of Materials Science and Technology, Faculty of Science, Prince of Songkla University, Hat Yai, Songkhla 90112, Thailand
autor
- Electron Microscopy Research and Service Center, Faculty of Science, Chiang Mai University, Chiang Mai 50200, Thailand
autor
- Department of Chemistry, Faculty of Science, Chiang Mai University, Chiang Mai 50200, Thailand
autor
- Department of Physics and Materials Science, Faculty of Science, Chiang Mai University, Chiang Mai 50200, Thailand
- Materials Science Research Center, Faculty of Science, Chiang Mai University, Chiang Mai 50200, Thailand
Bibliografia
- [1] LUO Z., LI H., SHU H., WANG K., XIA J., YAN Y., Mater. Chem. Phys., 110 (2008), 17.
- [2] RANGAPPA D., FUJIWARA T., WATANABE T., YOSHIMURA M., Mater. Res. Bull., 43 (2008), 3155.
- [3] LUO Z., LI H., SHU H., WANG K., XIA J., YAN Y., Cryst. Growth Des., 8 (2008), 2275.
- [4] WU X., DU J., LI H., ZHANG M., XI B., FAN H., ZHU Y., QIAN Y., J. Solid State Chem., 180 (2007), 3288.
- [5] CAVALCANTE L.S., SCZANCOSKI J.C., TRANQUILIN R.L., VARELA J.A., LONGO E., ORLANDI M.O., Particuology, 7 (2009), 353.
- [6] SUN Y., MA J., FANG J., CAO C., LIU Z., Ceram. Inter., 37 (2011), 683.
- [7] Powder Diffract. File, JCPDS Internat. Centre Diffract. Data, PA 19073-3273, U.S.A., 2001.
- [8] MAO C.J., GENG J., WU X.C., ZHU J.J., J. Phys. Chem. C, 114 (2010), 1982.
- [9] SCZANCOSKI J.C., CAVALCANTE L.S., MARANA N.L., SILVA R.O., TRANQUILIN R.L., JOYA M.R., PIZANI P.S., VARELA J.A., SAMBRANO J.R., LI M.S., LONGO E., ANDR´ES J., Curr. Appl. Phys., 10 (2010), 614.
- [10] YANG P., LI C., WANG W., QUAN Z., GAI S., LIN J., J. Solid State Chem., 182 (2009), 2510.
- [11] LONGO V.M., CAVALCANTE L.S., PARIS E.C., SCZANCOSKI J.C., PIZANI P.S., LI M.S., ANDR´ES J., LONGO E., VARELA J.A., J. Phys. Chem. C, 115 (2011), 5207.
- [12] PHURUANGRAT A., THONGTEM T., THONGTEM S., Superlattice. Microst., 52 (2012), 78.
- [13] PHURUANGRAT A., THONGTEM T., THONGTEM S., J. Phys. Chem. Solids, 70 (2009), 955.
- [14] THONGTEM T., PHURUANGRAT A., THONGTEM S., Mater. Lett., 62 (2008), 454.
- [15] THONGTEM T., PHURUANGRAT A., THONGTEM S., J. Nanopart. Res., 12 (2010), 2287.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4d7b83e2-c360-4a20-8f1a-2656000ac421