Processes of Molecular Relaxation in Binary Crystalline Systems KNO3–KClO4, KNO3–KNO2, and K2CO3–K2SO4

被引:0
|
作者
A. R. Aliev
I. R. Akhmedov
M. G. Kakagasanov
Z. A. Aliev
M. M. Gafurov
K. Sh. Rabadanov
A. M. Amirov
机构
[1] Dagestan Scientific Center,Amirkhanov Institute of Physics
[2] Russian Academy of Sciences,Analytical Resource Center
[3] Dagestan Scientific Center,undefined
[4] Russian Academy of Sciences,undefined
来源
Russian Journal of Physical Chemistry A | 2018年 / 92卷
关键词
molecular relaxation; binary systems; ionic crystals; Raman spectra; vibrational spectra;
D O I
暂无
中图分类号
学科分类号
摘要
The processes of molecular relaxation in binary crystalline systems KNO3–KClO4, KNO3–KNO2, and K2CO3–K2SO4 are studied via differential thermal analysis and Raman spectroscopy. It is found that the relaxation time of the vibrations ν1(A) of anions NO-3 and CO2-3 in systems KNO3–KClO4, KNO3–KNO2, and K2CO3–K2SO4 is less than that in KNO3 and K2CO3, respectively. It is shown that the increased rate of relaxation is explained by an additional relaxation mechanism presented in the system. This mechanism is associated with the excitation of vibrations of anions ClO-4, NO-2, and SO2-4 and the lattice phonons that emerge. It is found that this relaxation mechanism requires correspondence of the frequency difference of these vibrations to the region of sufficiently high density of states of the phonon spectrum.
引用
收藏
页码:470 / 474
页数:4
相关论文
共 50 条
  • [21] Vapor Pressure Measurement of Ternary {KNO3 + [Emim] Cl + H2O}, {KNO3 + [Emim]Ac + H2O}, {KNO3 + [Emim] NO3 + H2O}, and {KNO3 + [Emim]Br + H2O} Systems
    Wu, Yongping
    Cheng, Chong
    Yu, Luopeng
    Ding, Yaqi
    Gao, Neng
    Xuan, Yongmei
    Chen, Guangming
    INTERNATIONAL JOURNAL OF THERMOPHYSICS, 2022, 43 (07)
  • [22] Dielectric Properties of KNO3–NH4NO3 Crystalline Binary Mixtures
    A. Yu. Milinskii
    Russian Physics Journal, 2016, 58 : 1306 - 1312
  • [23] Stabilization of the Polar State of KNO3 in (KNO3)1–x/(CeO2)x Composites
    A. V. Pavlov
    E. V. Stukova
    S. V. Baryshnikov
    Inorganic Materials, 2024, 60 (11) : 1362 - 1366
  • [24] Vibrational Relaxation in LiNO3-LiClO4, Na2CO3-Na2SO4, and KNO3-KNO2 Solid Binary Systems
    Aliev, A. R.
    Akhmedov, I. R.
    Kakagasanov, M. G.
    Aliev, Z. A.
    Gafurov, M. M.
    Rabadanov, K. Sh.
    Amirov, A. M.
    RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY B, 2018, 12 (03) : 357 - 362
  • [25] Densities and Speeds of Sound in L-Leucine/L-Isoleucine + Aqueous K2SO4/KNO3 Systems at (298.15 to 323.15) K
    Riyazuddeen
    Gazal, Umaima
    JOURNAL OF CHEMICAL AND ENGINEERING DATA, 2012, 57 (01): : 7 - 13
  • [26] RAMAN SCATTERING IN KNO3 PHASES I 2 AND 3
    BALKANSKI, M
    TENG, MK
    NUSIMOVICI, M
    PHYSICAL REVIEW, 1968, 176 (03): : 1098 - +
  • [27] RAMAN SCATTERING IN KNO3 PHASES I 2 AND 3
    BALKANSKI, M
    TENG, MK
    NUSIMOVICI, M
    SOLID STATE COMMUNICATIONS, 1968, 6 (10) : R26 - +
  • [28] KNO3/Al2O3和K2CO3/Al2O3的强碱性研究
    朱建华
    王英
    淳远
    胡玉海
    化学物理学报, 1998, (02) : 82 - 87
  • [29] Application of ''Four-plane model'' to the adsorption of K+, NO3-, and SO42- from a mixed solution of KNO3 and K2SO4 on andisols
    Kamewada, K
    SOIL SCIENCE AND PLANT NUTRITION, 1996, 42 (04) : 801 - 808
  • [30] Phase Diagram of the NaNO2—KNO3 System in the 0 to 1 Molar Fraction Range of Concentrations of KNO3
    K. S. Merzlyakov
    N. P. Uglev
    Russian Journal of Physical Chemistry A, 2016, 90 : 882 - 883
12345