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磁几何阻挫材料羟基氯化钴的中红外光谱特征

刘晓东 陶万军 郑旭光 萩原雅人 孟冬冬 张森林 郭其新

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Citation:

磁几何阻挫材料羟基氯化钴的中红外光谱特征

刘晓东, 陶万军, 郑旭光, 萩原雅人, 孟冬冬, 张森林, 郭其新

Mid-infrared spectroscopic properties of geometrically frustrated basic cobalt chlorides

Liu Xiao-Dong, Tao Wan-Jun, Hagihala Masato, Guo Qi-Xin, Meng Dong-Dong, Zhang Sen-Lin, Zheng Xu-Guang
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  • 使用3种光谱仪测量了磁几何阻挫材料羟基氯化钴Co2(OH)3Cl的中红外(4000—400 cm-1)吸收光谱,筛选出确信为Co2(OH)3Cl的本征吸收峰数据,结合已知的晶体结构参数,指认了官能团和指纹区相应谱峰的来源.在指认中着重探讨了羟基伸缩振动基频模vOH的具体实验数据,根据固体中氢键的特点,以Co3—O平均距离为基准,推算了本样品
    Three types of FTIR spectrometers were employed to measure the mid-infrared (4000—400 cm-1) absorption spectra of geometrically frustrated hydroxyl cobalt chloride Co2(OH)3Cl, and the intrinsic absorption peaks in the functional group region and fingerprint region were selected and assigned to corresponding vibrational modes according to its known crystal structure. In the assigning process, great emphasis was laid on analyzing the exact experimental data of hydroxyl stretching vibration mode vOH, that is, estimating the free vOH of the Co3—OH group without any hydrogen bond (H-bond), to obtain the red-shift which reflects the formation of an H-band in Co2(OH)3Cl. A 156 cm-1 red-shift is obtained theoretically which demonstrates the presence of non-negligible weak H-bonds, and eventually result in the discovery of the rarely reported trimeric H-bond in the field of crystalline materials, which consists of three independent hydroxyl donors and only one Cl- acceptor. We explained the relative weakness of this kind of hydrogen bond which may have a critical effect on the lattice symmetry and magnetic structure.
    • 基金项目: 天津工业大学博士科研启动项目(批准号:20080033),日本学术振兴会科学研究项目(批准号:Kiban-B 19340100),日本文部省特定领域科学研究项目(批准号:Tokutei 22014008)资助的课题.
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    [2]

    Gardner J S, Gingras M J P, Greedan J E 2010 Rev. Mod. Phys. 82 53

    [3]

    Zheng X G, Otabe E S 2004 Solid State Commun. 130 107

    [4]

    Zheng X G, Xu C N 2004 Solid State Commun. 131 509

    [5]

    Zheng X G, Kawae T, Kashitani Y, Li C S, Tateiwa N, Takeda K, Yamada H, Xu C N, Ren Y 2005 Phys. Rev. B 71 052409

    [6]

    Zheng X G, Mori T, Nishiyama K, Higemoto W, Yamada H, Nishikubo K, Xu C N 2005 Phys. Rev. B 71 174404

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    Zheng X G, Kubozono H, Nishiyama K, Higemoto W, Kawae T, Koda A, Xu C N 2005 Phys. Rev. Lett. 95 057201

    [8]

    Zheng X G, Yamashita T, Hagihala M, Fujihala M, Kawae T 2009 Physica B 404 680

    [9]

    Hagihala M, Zheng X G, Toriyi T, Kawae T 2007 J. Phys.: Condens. Matter 19 145281

    [10]

    Zheng X G, Hagihala M, Toriyi T 2007 J. Magn. Magn. Mater. 310 1288

    [11]

    Zheng X G, Kawae T, Yamada H, Nishiyama K, Xu C N 2006 Phys. Rev. Lett. 97 247204

    [12]

    Hagihala M, Zheng X G, Kawae T 2009 Physica B 404 671

    [13]

    Fujihala M, Hagihala M, Zheng X G, Kawae T 2009 Physica B 404 674

    [14]

    Kubo H, Zenmyo K, Tokita M, Hamasaki T, Hagihala M, Zheng X G 2008 J. Phys. Soc. Jpn. 77 013704

    [15]

    Tokita M and Zenmyo K 2009 J. Phys.: Conf. Series 150 042208

    [16]

    Zenmyo K, Tokita M 2009 J. Magn. Magn. Mater. 321 2192

    [17]

    Bi C Z, Ma J Y, Zhao B R, Tang Z, Yin D, Li C Z, Yao D Z, Shi J, Qiu X G 2005 J. Phys.: Condens. Matter 17 5225

    [18]

    Martens W, Frost R L, Williams P A 2003 N. Jb. Miner. Abh. 178 197

    [19]

    Zheng X G, Hagihala M, Fujihala M, Kawae T 2009 J. Phys.: Conf. Series. 145 012034

    [20]

    Ergun H B, Gehring K A, Gehring G A 1976 J. Phys.C: Solid State Phys. 9 1101

    [21]

    Jongenelis A P J M, van den Berg T H M, Schmidt J, van der Avoird A 1989 J. Phys.: Condens. Matter 1 5051

    [22]

    Lutz H D 1995 Struct. Bond. 82 85

    [23]

    Beckenkamp K, Lutz H D 1992 J. Mol. Struct. 270 393

    [24]

    Zwier T S 2004 Science 304 1119

    [25]

    Sun X Z, Li B, Zhou Q B, Zhang H B, Cheng G Z, Zhou X H 2008 Crystal Growth Design 8 2970

    [26]

    Mohti F 2006 J. Mol. Struct. THEO 770 179

    [27]

    Nakamoto K 2009 Infrared and Raman Spectra of inorganic and coordination compounds, Part A & B 2009 Sixth edition, John Wiley & Sons Inc.

    [28]

    Chen H J, Shi L H, Yan W B, Chen G F, Shen J, Li Y X 2009 Chin. Phys. B 18 2372

    [29]

    Yang Y, Liu Y L, Zhu K, Zhang L Y, Ma S Y, Liu J, Jiang Y J 2010 Chin. Phys. B 19 037802

    [30]

    Hu D W, Wang Z P, Zhang H J, Xu X G, Wang J Y, Shao Z S 2008 Acta Phys. Sin. 57 1714 (in Chinese) [胡大伟、王正平、 张怀金、许心光、王继扬、邵宗书 2008 57 1714]

    [31]

    Fang Z Q, Hu M, Zhang W, Zhang X R 2008 Acta Phys. Sin. 57 103 (in Chinese)[房振乾、胡 明、张 伟、张绪瑞 2008 57 103]

    [32]

    Zhang X, Wan S M, Yin S T, You J L, Zhang R B 2009 Acta Phys. Sin. 58 373 (in Chinese)[张 霞、万松明、殷绍唐、尤静林、张荣波 2009 58 373]

  • [1]

    Zheng X G 2008 Prog. Phys. 28 314 (in Chinese) [郑旭光 2008 物理学进展 28 314]

    [2]

    Gardner J S, Gingras M J P, Greedan J E 2010 Rev. Mod. Phys. 82 53

    [3]

    Zheng X G, Otabe E S 2004 Solid State Commun. 130 107

    [4]

    Zheng X G, Xu C N 2004 Solid State Commun. 131 509

    [5]

    Zheng X G, Kawae T, Kashitani Y, Li C S, Tateiwa N, Takeda K, Yamada H, Xu C N, Ren Y 2005 Phys. Rev. B 71 052409

    [6]

    Zheng X G, Mori T, Nishiyama K, Higemoto W, Yamada H, Nishikubo K, Xu C N 2005 Phys. Rev. B 71 174404

    [7]

    Zheng X G, Kubozono H, Nishiyama K, Higemoto W, Kawae T, Koda A, Xu C N 2005 Phys. Rev. Lett. 95 057201

    [8]

    Zheng X G, Yamashita T, Hagihala M, Fujihala M, Kawae T 2009 Physica B 404 680

    [9]

    Hagihala M, Zheng X G, Toriyi T, Kawae T 2007 J. Phys.: Condens. Matter 19 145281

    [10]

    Zheng X G, Hagihala M, Toriyi T 2007 J. Magn. Magn. Mater. 310 1288

    [11]

    Zheng X G, Kawae T, Yamada H, Nishiyama K, Xu C N 2006 Phys. Rev. Lett. 97 247204

    [12]

    Hagihala M, Zheng X G, Kawae T 2009 Physica B 404 671

    [13]

    Fujihala M, Hagihala M, Zheng X G, Kawae T 2009 Physica B 404 674

    [14]

    Kubo H, Zenmyo K, Tokita M, Hamasaki T, Hagihala M, Zheng X G 2008 J. Phys. Soc. Jpn. 77 013704

    [15]

    Tokita M and Zenmyo K 2009 J. Phys.: Conf. Series 150 042208

    [16]

    Zenmyo K, Tokita M 2009 J. Magn. Magn. Mater. 321 2192

    [17]

    Bi C Z, Ma J Y, Zhao B R, Tang Z, Yin D, Li C Z, Yao D Z, Shi J, Qiu X G 2005 J. Phys.: Condens. Matter 17 5225

    [18]

    Martens W, Frost R L, Williams P A 2003 N. Jb. Miner. Abh. 178 197

    [19]

    Zheng X G, Hagihala M, Fujihala M, Kawae T 2009 J. Phys.: Conf. Series. 145 012034

    [20]

    Ergun H B, Gehring K A, Gehring G A 1976 J. Phys.C: Solid State Phys. 9 1101

    [21]

    Jongenelis A P J M, van den Berg T H M, Schmidt J, van der Avoird A 1989 J. Phys.: Condens. Matter 1 5051

    [22]

    Lutz H D 1995 Struct. Bond. 82 85

    [23]

    Beckenkamp K, Lutz H D 1992 J. Mol. Struct. 270 393

    [24]

    Zwier T S 2004 Science 304 1119

    [25]

    Sun X Z, Li B, Zhou Q B, Zhang H B, Cheng G Z, Zhou X H 2008 Crystal Growth Design 8 2970

    [26]

    Mohti F 2006 J. Mol. Struct. THEO 770 179

    [27]

    Nakamoto K 2009 Infrared and Raman Spectra of inorganic and coordination compounds, Part A & B 2009 Sixth edition, John Wiley & Sons Inc.

    [28]

    Chen H J, Shi L H, Yan W B, Chen G F, Shen J, Li Y X 2009 Chin. Phys. B 18 2372

    [29]

    Yang Y, Liu Y L, Zhu K, Zhang L Y, Ma S Y, Liu J, Jiang Y J 2010 Chin. Phys. B 19 037802

    [30]

    Hu D W, Wang Z P, Zhang H J, Xu X G, Wang J Y, Shao Z S 2008 Acta Phys. Sin. 57 1714 (in Chinese) [胡大伟、王正平、 张怀金、许心光、王继扬、邵宗书 2008 57 1714]

    [31]

    Fang Z Q, Hu M, Zhang W, Zhang X R 2008 Acta Phys. Sin. 57 103 (in Chinese)[房振乾、胡 明、张 伟、张绪瑞 2008 57 103]

    [32]

    Zhang X, Wan S M, Yin S T, You J L, Zhang R B 2009 Acta Phys. Sin. 58 373 (in Chinese)[张 霞、万松明、殷绍唐、尤静林、张荣波 2009 58 373]

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出版历程
  • 收稿日期:  2010-05-17
  • 修回日期:  2010-07-05
  • 刊出日期:  2011-03-15

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