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Journal Abstract Search

156 related items for PubMed ID: 31701009

  • 1. Entropic elasticity and negative thermal expansion in a simple cubic crystal.
    Wendt D, Bozin E, Neuefeind J, Page K, Ku W, Wang L, Fultz B, Tkachenko AV, Zaliznyak IA.
    Sci Adv; 2019 Nov; 5(11):eaay2748. PubMed ID: 31701009
    [Abstract] [Full Text] [Related]

  • 2. New Insights into the Negative Thermal Expansion: Direct Experimental Evidence for the "Guitar-String" Effect in Cubic ScF3.
    Hu L, Chen J, Sanson A, Wu H, Guglieri Rodriguez C, Olivi L, Ren Y, Fan L, Deng J, Xing X.
    J Am Chem Soc; 2016 Jul 13; 138(27):8320-3. PubMed ID: 27336200
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  • 3. Negative thermal expansion and associated anomalous physical properties: review of the lattice dynamics theoretical foundation.
    Dove MT, Fang H.
    Rep Prog Phys; 2016 Jun 13; 79(6):066503. PubMed ID: 27177210
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  • 4. Low-Frequency Phonon Driven Negative Thermal Expansion in Cubic GaFe(CN)6 Prussian Blue Analogues.
    Gao Q, Shi N, Sun Q, Sanson A, Milazzo R, Carnera A, Zhu H, Lapidus SH, Ren Y, Huang Q, Chen J, Xing X.
    Inorg Chem; 2018 Sep 04; 57(17):10918-10924. PubMed ID: 30106577
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  • 5. Infrared lattice dynamics in negative thermal expansion material in single-crystal ScF3.
    Handunkanda SU, Curry EB, Voronov V, Hancock JN.
    J Phys Condens Matter; 2020 Jan 16; 32(3):035403. PubMed ID: 31569082
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  • 6. Size and crystal symmetry breaking effects on negative thermal expansion in ScF3 nanostructures.
    Wang C, Chang D, Wang J, Gao Q, Zhang Y, Niu C, Liu C, Jia Y.
    Phys Chem Chem Phys; 2021 Nov 10; 23(43):24814-24822. PubMed ID: 34714310
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  • 12. Giant uniaxial negative thermal expansion in FeZr2 alloy over a wide temperature range.
    Xu M, Li Q, Song Y, Xu Y, Sanson A, Shi N, Wang N, Sun Q, Wang C, Chen X, Qiao Y, Long F, Liu H, Zhang Q, Venier A, Ren Y, d'Acapito F, Olivi L, De Souza DO, Xing X, Chen J.
    Nat Commun; 2023 Jul 24; 14(1):4439. PubMed ID: 37488108
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  • 13. Negative to positive axial thermal expansion switching of an organic crystal: contribution to multistep photoactuation.
    Hasebe S, Hagiwara Y, Ueno T, Asahi T, Koshima H.
    Chem Sci; 2024 Jan 17; 15(3):1088-1097. PubMed ID: 38239690
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  • 15. Interplay between Phonons and Anisotropic Elasticity Drives Negative Thermal Expansion in PbTiO_{3}.
    Ritz ET, Benedek NA.
    Phys Rev Lett; 2018 Dec 21; 121(25):255901. PubMed ID: 30608816
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  • 17. Antiferroelectricity-Induced Negative Thermal Expansion in Double Perovskite Pb2 CoMoO6.
    Zhao H, Pan Z, Shen X, Zhao J, Lu D, Zhang J, Hu Z, Kuo CY, Chen CT, Chan TS, Sahle CJ, Dong C, Nishikubo T, Koike T, Deng ZY, Hong J, Yu R, Yu P, Azuma M, Jin C, Long Y.
    Small; 2024 Jan 21; 20(2):e2305219. PubMed ID: 37658514
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  • 18. Bi-Material Negative Thermal Expansion Inverted Trapezoid Lattice based on A Composite Rod.
    Luo W, Xue S, Zhang M, Zhao C, Li G.
    Materials (Basel); 2019 Oct 16; 12(20):. PubMed ID: 31623148
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  • 19. Efficient Calculation of the Negative Thermal Expansion in ZrW2O8.
    Vila FD, Hayashi ST, Rehr JJ.
    Front Chem; 2018 Oct 16; 6():296. PubMed ID: 30105223
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  • 20. Structural relationship between negative thermal expansion and quartic anharmonicity of cubic ScF3.
    Li CW, Tang X, Muñoz JA, Keith JB, Tracy SJ, Abernathy DL, Fultz B.
    Phys Rev Lett; 2011 Nov 04; 107(19):195504. PubMed ID: 22181626
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