Anomalous H[sbnd]C bond thermal contraction of the energetic nitromethane

Zhixu Tang; Chuang Yao; Yangyang Zeng; Yongli Huang; Lei Zhang; Yanqiang Yang; Chang Q. Sun

doi:10.1016/j.molliq.2020.113817

Anomalous H[sbnd]C bond thermal contraction of the energetic nitromethane

Zhixu Tang, Chuang Yao, Yangyang Zeng, Yongli Huang, Lei Zhang, Yanqiang Yang^*, Chang Q. Sun^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

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A systematic phonon spectrometric examination revealed that the H[sbnd]C phonon (2966 cm⁻¹) undergoes blueshift under both compression and heating, but the C[sbnd]N (921 cm⁻¹) and the N[sbnd]O (1403 cm⁻¹) bonds undergo regular thermal redshift and compression blueshift in the Nitromethene (CH₃NO₂) assembly that is a solid under compression and a liquid under heating. An extension of the Grüneisen parameters integrates the phonon frequency shift to the intrinsic compressibility, thermal expansibility, specific heat, equilibrium bond length, atomic cohesive energy, and bonding energy density of the single bond which represents all of its sorts contributing to the spectral peak shift. The coupled hydrogen bond (HB, N (O):H–C), performs the same as the O:H–O of liquid water and ice I does in responding to heating. Results suggested that the combination of the N (O):H-C tension and the O:⇔:N repulsion stabilize the crystal structure and store energy, as they do in the cyclo-N₅⁻:[4H₃O⁺; 3H₃O⁺ + 2NH₄⁺] complexes.

源语言	英语
文章编号	113817
期刊	Journal of Molecular Liquids
卷	314
DOI	https://doi.org/10.1016/j.molliq.2020.113817
出版状态	已出版 - 15 9月 2020
已对外发布	是

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title = "Anomalous H[sbnd]C bond thermal contraction of the energetic nitromethane",

abstract = "A systematic phonon spectrometric examination revealed that the H[sbnd]C phonon (2966 cm−1) undergoes blueshift under both compression and heating, but the C[sbnd]N (921 cm−1) and the N[sbnd]O (1403 cm−1) bonds undergo regular thermal redshift and compression blueshift in the Nitromethene (CH3NO2) assembly that is a solid under compression and a liquid under heating. An extension of the Gr{\"u}neisen parameters integrates the phonon frequency shift to the intrinsic compressibility, thermal expansibility, specific heat, equilibrium bond length, atomic cohesive energy, and bonding energy density of the single bond which represents all of its sorts contributing to the spectral peak shift. The coupled hydrogen bond (HB, N (O):H–C), performs the same as the O:H–O of liquid water and ice I does in responding to heating. Results suggested that the combination of the N (O):H-C tension and the O:⇔:N repulsion stabilize the crystal structure and store energy, as they do in the cyclo-N5−:[4H3O+; 3H3O+ + 2NH4+] complexes.",

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AU - Tang, Zhixu

AU - Yao, Chuang

AU - Zeng, Yangyang

AU - Huang, Yongli

AU - Zhang, Lei

AU - Yang, Yanqiang

AU - Sun, Chang Q.

PY - 2020/9/15

Y1 - 2020/9/15

N2 - A systematic phonon spectrometric examination revealed that the H[sbnd]C phonon (2966 cm−1) undergoes blueshift under both compression and heating, but the C[sbnd]N (921 cm−1) and the N[sbnd]O (1403 cm−1) bonds undergo regular thermal redshift and compression blueshift in the Nitromethene (CH3NO2) assembly that is a solid under compression and a liquid under heating. An extension of the Grüneisen parameters integrates the phonon frequency shift to the intrinsic compressibility, thermal expansibility, specific heat, equilibrium bond length, atomic cohesive energy, and bonding energy density of the single bond which represents all of its sorts contributing to the spectral peak shift. The coupled hydrogen bond (HB, N (O):H–C), performs the same as the O:H–O of liquid water and ice I does in responding to heating. Results suggested that the combination of the N (O):H-C tension and the O:⇔:N repulsion stabilize the crystal structure and store energy, as they do in the cyclo-N5−:[4H3O+; 3H3O+ + 2NH4+] complexes.

AB - A systematic phonon spectrometric examination revealed that the H[sbnd]C phonon (2966 cm−1) undergoes blueshift under both compression and heating, but the C[sbnd]N (921 cm−1) and the N[sbnd]O (1403 cm−1) bonds undergo regular thermal redshift and compression blueshift in the Nitromethene (CH3NO2) assembly that is a solid under compression and a liquid under heating. An extension of the Grüneisen parameters integrates the phonon frequency shift to the intrinsic compressibility, thermal expansibility, specific heat, equilibrium bond length, atomic cohesive energy, and bonding energy density of the single bond which represents all of its sorts contributing to the spectral peak shift. The coupled hydrogen bond (HB, N (O):H–C), performs the same as the O:H–O of liquid water and ice I does in responding to heating. Results suggested that the combination of the N (O):H-C tension and the O:⇔:N repulsion stabilize the crystal structure and store energy, as they do in the cyclo-N5−:[4H3O+; 3H3O+ + 2NH4+] complexes.

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Anomalous H[sbnd]C bond thermal contraction of the energetic nitromethane

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