High pressure investigation of alpha-form and CH4-loaded beta-form of hydroquinone compounds
- Authors
- Lee, Yongjae; Lee, Jong-Won; Lee, Hyun-Hwi; Lee, Dong Ryeol; Kao, Chi-Chang; Kawamura, Taro; Yamamoto, Yoshitaka; Yoon, Ji-Ho
- Issue Date
- 28-Mar-2009
- Publisher
- AMER INST PHYSICS
- Keywords
- crystal structure; decomposition; elastic moduli; high-pressure solid-state phase transformations; hydrogen bonds; organic compounds; Raman spectra; X-ray diffraction
- Citation
- JOURNAL OF CHEMICAL PHYSICS, v.130, no.12
- Journal Title
- JOURNAL OF CHEMICAL PHYSICS
- Volume
- 130
- Number
- 12
- URI
- http://scholarworks.bwise.kr/ssu/handle/2018.sw.ssu/15859
- DOI
- 10.1063/1.3097763
- ISSN
- 0021-9606
- Abstract
- The high pressure compression behaviors of two hydroquinone compounds have been investigated using a combination of in situ synchrotron x-ray powder diffraction and Raman spectroscopy up to ca. 7 GPa. The structural integrity of the alpha-form hydroquinone clathrate is maintained throughout the pressure range, whereas the CH4-loaded beta-form hydroquinone clathrate decomposes and transforms to a new high pressure phase near 5 GPa. The bulk modulus (K) and its pressure derivative (K-') of the alpha-form and the CH4-loaded beta-form hydroquinones are measured to be 8.2(3) GPa and 8.4(4), and 10(1) GPa and 9(2), respectively, representing one of the most compressible classes of crystalline solids reported in the literature. The corresponding axial compression behaviors, however, show greater contrast between the two hydroquinone compounds; the elastic anisotropy of the alpha-form is only marginal, being K(a):K(c)=1.08:1, whereas that of the CH4-loaded beta-form is rather drastic, being K(a):K(c)=11.8:1. This is attributed to the different dimensionality of the hydrogen bonding networks between the two structures and might in turn explain the observed structural instability of the beta-form, compared to the alpha-form.
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Collections - College of Natural Sciences > Department of Physics > 1. Journal Articles
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