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Polarized Raman spectra of single crystal Bi2ZnOB2O6

Zhang Ji Zhang De-Ming Wang Di Zhang Qing-Li Sun Dun-Lu Yin Shao-Tang

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Polarized Raman spectra of single crystal Bi2ZnOB2O6

Zhang Ji, Zhang De-Ming, Wang Di, Zhang Qing-Li, Sun Dun-Lu, Yin Shao-Tang
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  • Polarized Raman spectra of single crystal Bi2ZnOB2O6 have been recorded in the spectral range 101600 cm-1 at room temperature. Factor group analysis was used to obtain the normal modes of vibration of the crystal. The Raman peaks under 300 cm-1 are assigned to external modes, which are related to the rotational and transitional movement of the [BiO6], [ZnO4], [BO4] and [BO3] groups. Compared with the vibrational spectra of the compounds referred, the satisfactory assignment of most of the high-energy modes to vibrations of Bi-O, B-O and Zn-O bonds can be achieved. In particular, the Raman high-frequency peak located at 1407 cm-1 is attributed to the B-O vibration in the [BO3] triangle.
    • Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 50932005, 51102239, 90922003, 51172236, 91122021) and the Natural Science Foundation of Anhui Provence, China (Grant No. KJ2013B106).
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    Li F, Pan S L, Hou X L, Yao J 2009 Cryst. Growth Des. 9 4091

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    Li F, Hou X L, Pan S L, Wang X A 2009 Chem. Mater. 21 2846

    [4]

    Li F, Fu P Z, Wu Y C, Zhang J X 2009 J. Cryst. Growth 311 3476

    [5]

    Li F, Pan S, Hou X, Zhou Z 2010 J. Cryst. Growth 312 2383

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    Zhang Q H, Wang J, Ni H, Wang L 2012 Rare Metals 31 35

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    Merad B I, Reshak A H, Ouahrani T, Bentalha Z 2013 J. Appl. Phys. 113 083505

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    Zhang J, Wang D, Zhang D M, Zhang Q L, Wan S M, Sun D L, Yin S T 2013 Acta Phys. Sin. 62 037802 (in Chinese) [张季, 王迪, 张德明, 张庆礼, 万松明, 孙敦陆, 殷绍唐 2013 物理学报 62 037802]

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    Wang D, Wan S M, Zhang Q L, Sun D L, Gu G X, Yin S T, Zhang G C, You J L, Wang Y Y 2011 Chin. Phys. B 10 108101

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    Zhang G Y 2001 Lattice vibrational spectroscopy (Higher Education Press) p200 (in Chinese) [张光寅 2001 晶格振动光谱学 (高等教育出版社) 第200页]

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    Baia L, Stefan R, Kiefer W, Simon S 2005 J. Raman Spectrosc. 36 262

    [18]

    Inoue T, Honmaa T, Dimitrov V, Komatsu T 2010 J. Solid State Chem. 183 3078

    [19]

    Domoratski K V, Pastukhov V I, Kudzin A Y, Ya L Sadovskaya, Rizak V M, Stefanovich V A 2001 Phys. Solid State 42 1443

    [20]

    Krogh-Moe J 1962 Acra Crystallogr. 15 190

    [21]

    Kamitsos E I, Karakassides M A, Chryssikos G D 1989 Phys. Chem. Glasses 30 229

    [22]

    Heyns A M, Range K J, Wildenauer M 1990 Spectrochimica Acta A 46 1621

    [23]

    Jiang Y J, Wang Y, Zeng K Z, Liu Y L 1996 Acta Phys. Sin. 45 885 (in Chinese) [蒋毅坚, 王越, 曾令扯, 刘玉龙 1996 物理学报 45 885]

    [24]

    Paul G L, Taylor W 1956 J. Phys. 25 1184

    [25]

    Steele W C, Decius J C 1956 J. Chem. Phys. 25 1184

    [26]

    Kaminskiia A A, Beckerb P, Bohatyb L, Uedac K, Takaichic K, Hanuzad J, Maczkad M, Eichlerf H J, Gad M A 2002 Optics Communications 206 179

    [27]

    Shang Q Y, Hudson B S, Huang C 1991 Spectrachim Acta. A 47 291

    [28]

    Damen T C, Pqrtq S P S, Tell B 1966 Phys. Rev. 142 570

  • [1]

    Barbier J, Penin N, Cranswick L M 2005 Chem. Mater. 17 3130

    [2]

    Li F, Pan S L, Hou X L, Yao J 2009 Cryst. Growth Des. 9 4091

    [3]

    Li F, Hou X L, Pan S L, Wang X A 2009 Chem. Mater. 21 2846

    [4]

    Li F, Fu P Z, Wu Y C, Zhang J X 2009 J. Cryst. Growth 311 3476

    [5]

    Li F, Pan S, Hou X, Zhou Z 2010 J. Cryst. Growth 312 2383

    [6]

    Zhang Q H, Wang J, Ni H, Wang L 2012 Rare Metals 31 35

    [7]

    Reshak H, Auluck S, Majchrowski A, Kityk I V 2009 Jpn. J. Appl. Phys. Part 1 48 011601

    [8]

    Majchrowski A, Gondek E, Ozga K, Kityk I V, Reshak A H,Kasiewicz T 2009 J. Alloys Compd. 485 29

    [9]

    Weglowski S, Klosowicz S J, Majchrowski A, Tkaczyk S, Reshak A H, Pisarek J, Kityk I V 2010 Mater. Lett. 64 1176

    [10]

    Majchrowski S, Ebothe J, Ozga K, Kityk I V, Reshak A H, Luksiewicz T, Brik M G 2010 J. Phys. D: Appl. Phys. 43 015103

    [11]

    Majchrowski S, Ebothe J, Sanetra J, Ozga K, Kityk I V, Reshak A H, Łukasiewicz T 2010 J. Mater. Sci.: Mater. Electron. 21 726

    [12]

    Merad B I, Reshak A H, Ouahrani T, Bentalha Z 2013 J. Appl. Phys. 113 083505

    [13]

    Chen C T 1979 Sci. Sin. 22 759

    [14]

    Zhang J, Wang D, Zhang D M, Zhang Q L, Wan S M, Sun D L, Yin S T 2013 Acta Phys. Sin. 62 037802 (in Chinese) [张季, 王迪, 张德明, 张庆礼, 万松明, 孙敦陆, 殷绍唐 2013 物理学报 62 037802]

    [15]

    Wang D, Wan S M, Zhang Q L, Sun D L, Gu G X, Yin S T, Zhang G C, You J L, Wang Y Y 2011 Chin. Phys. B 10 108101

    [16]

    Zhang G Y 2001 Lattice vibrational spectroscopy (Higher Education Press) p200 (in Chinese) [张光寅 2001 晶格振动光谱学 (高等教育出版社) 第200页]

    [17]

    Baia L, Stefan R, Kiefer W, Simon S 2005 J. Raman Spectrosc. 36 262

    [18]

    Inoue T, Honmaa T, Dimitrov V, Komatsu T 2010 J. Solid State Chem. 183 3078

    [19]

    Domoratski K V, Pastukhov V I, Kudzin A Y, Ya L Sadovskaya, Rizak V M, Stefanovich V A 2001 Phys. Solid State 42 1443

    [20]

    Krogh-Moe J 1962 Acra Crystallogr. 15 190

    [21]

    Kamitsos E I, Karakassides M A, Chryssikos G D 1989 Phys. Chem. Glasses 30 229

    [22]

    Heyns A M, Range K J, Wildenauer M 1990 Spectrochimica Acta A 46 1621

    [23]

    Jiang Y J, Wang Y, Zeng K Z, Liu Y L 1996 Acta Phys. Sin. 45 885 (in Chinese) [蒋毅坚, 王越, 曾令扯, 刘玉龙 1996 物理学报 45 885]

    [24]

    Paul G L, Taylor W 1956 J. Phys. 25 1184

    [25]

    Steele W C, Decius J C 1956 J. Chem. Phys. 25 1184

    [26]

    Kaminskiia A A, Beckerb P, Bohatyb L, Uedac K, Takaichic K, Hanuzad J, Maczkad M, Eichlerf H J, Gad M A 2002 Optics Communications 206 179

    [27]

    Shang Q Y, Hudson B S, Huang C 1991 Spectrachim Acta. A 47 291

    [28]

    Damen T C, Pqrtq S P S, Tell B 1966 Phys. Rev. 142 570

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Publishing process
  • Received Date:  19 August 2013
  • Accepted Date:  02 September 2013
  • Published Online:  05 December 2013

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