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Pressure-induced low-lying phonon modes softening and enhanced thermal resistance in beta-Mg2Al4Si5O18
Li, Yiran; Tian, Zhilin; Luo, Yixiu; Wang, Jiemin; Sun, Luchao; Zheng, Liya; Wang, Jingyang; Wang, JY (reprint author), Chinese Acad Sci, Inst Met Res, High Performance Ceram Div, Shenyang Natl Lab Mat Sci, Shenyang 110016, Peoples R China.
2017-02-01
Source PublicationPHYSICAL REVIEW B
ISSN2469-9950
Volume95Issue:5Pages:-
AbstractLattice thermal conductivities of beta-Mg2Al4Si5O18 were predicted at various hydrostatic pressures based on some theoretical models. An abnormal decrement on lattice thermal conductivity is observed for compressed crystal structure. A rigorous analysis of structural stability, bonding characteristics, vibration modes, group velocities, and mode Gruneisen parameters helps us to recognize the origin of this anomalous behavior. We attribute the negative dependent trend to the softening of low frequency phonons and strengthening of anharmonicity at elevated pressure, both of which arise from the specific corner-linked tetrahedral framework in the crystal structure. To validate theoretical calculations, we synthesized pure and dense beta-Mg2Al4Si5O18 ceramic by using a two-step processing method and determined its intrinsic lattice thermal conductivity by successfully eliminating the phonon scattering from defects and high-temperature thermal radiation. The experimental intrinsic values agreed quite well with the theoretical predictions. This paper reports an anomalous pressure-induced reduction of lattice thermal conductivity and also provides a key insight into the interesting phonon modification mechanism through tailoring the crystal structure of complex compounds.; Lattice thermal conductivities of beta-Mg2Al4Si5O18 were predicted at various hydrostatic pressures based on some theoretical models. An abnormal decrement on lattice thermal conductivity is observed for compressed crystal structure. A rigorous analysis of structural stability, bonding characteristics, vibration modes, group velocities, and mode Gruneisen parameters helps us to recognize the origin of this anomalous behavior. We attribute the negative dependent trend to the softening of low frequency phonons and strengthening of anharmonicity at elevated pressure, both of which arise from the specific corner-linked tetrahedral framework in the crystal structure. To validate theoretical calculations, we synthesized pure and dense beta-Mg2Al4Si5O18 ceramic by using a two-step processing method and determined its intrinsic lattice thermal conductivity by successfully eliminating the phonon scattering from defects and high-temperature thermal radiation. The experimental intrinsic values agreed quite well with the theoretical predictions. This paper reports an anomalous pressure-induced reduction of lattice thermal conductivity and also provides a key insight into the interesting phonon modification mechanism through tailoring the crystal structure of complex compounds.
description.department[li, yiran ; tian, zhilin ; luo, yixiu ; wang, jiemin ; sun, luchao ; wang, jingyang] chinese acad sci, inst met res, high performance ceram div, shenyang natl lab mat sci, shenyang 110016, peoples r china ; [li, yiran ; luo, yixiu] univ chinese acad sci, beijing 100049, peoples r china ; [zheng, liya] imperial coll london, dept chem engn, london sw7 2az, england
Subject AreaPhysics, Condensed Matter
Funding OrganizationNatural Sciences Foundation of China [51372252, 51402313]
Indexed BySCI
Language英语
Document Type期刊论文
Identifierhttp://ir.imr.ac.cn/handle/321006/78299
Collection中国科学院金属研究所
Corresponding AuthorWang, JY (reprint author), Chinese Acad Sci, Inst Met Res, High Performance Ceram Div, Shenyang Natl Lab Mat Sci, Shenyang 110016, Peoples R China.
Recommended Citation
GB/T 7714
Li, Yiran,Tian, Zhilin,Luo, Yixiu,et al. Pressure-induced low-lying phonon modes softening and enhanced thermal resistance in beta-Mg2Al4Si5O18[J]. PHYSICAL REVIEW B,2017,95(5):-.
APA Li, Yiran.,Tian, Zhilin.,Luo, Yixiu.,Wang, Jiemin.,Sun, Luchao.,...&Wang, JY .(2017).Pressure-induced low-lying phonon modes softening and enhanced thermal resistance in beta-Mg2Al4Si5O18.PHYSICAL REVIEW B,95(5),-.
MLA Li, Yiran,et al."Pressure-induced low-lying phonon modes softening and enhanced thermal resistance in beta-Mg2Al4Si5O18".PHYSICAL REVIEW B 95.5(2017):-.
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