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Journal Abstract Search

259 related items for PubMed ID: 30106577

  • 1. 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
    [Abstract] [Full Text] [Related]

  • 2. Negative thermal expansion in cubic FeFe(CN)6 Prussian blue analogues.
    Shi N, Gao Q, Sanson A, Li Q, Fan L, Ren Y, Olivi L, Chen J, Xing X.
    Dalton Trans; 2019 Mar 12; 48(11):3658-3663. PubMed ID: 30762851
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  • 3. Tunable Thermal Expansion from Negative, Zero, to Positive in Cubic Prussian Blue Analogues of GaFe(CN)6.
    Gao Q, Shi N, Sanson A, Sun Y, Milazzo R, Olivi L, Zhu H, Lapidus SH, Zheng L, Chen J, Xing X.
    Inorg Chem; 2018 Nov 19; 57(22):14027-14030. PubMed ID: 30376304
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  • 4. 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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  • 5. Effect of bond on negative thermal expansion of Prussian blue analogues MCo(CN)6(M=Fe, Ti and Sc): a first-principles study.
    Li Y, Gao Q, Chang D, Sun P, Liu J, Jia Y, Liang E, Sun Q.
    J Phys Condens Matter; 2020 Aug 13; 32(45):. PubMed ID: 32688349
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  • 6. Discovering Large Isotropic Negative Thermal Expansion in Framework Compound AgB(CN)4 via the Concept of Average Atomic Volume.
    Gao Q, Wang J, Sanson A, Sun Q, Liang E, Xing X, Chen J.
    J Am Chem Soc; 2020 Apr 15; 142(15):6935-6939. PubMed ID: 32233466
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  • 7. Giant Negative Thermal Expansion in Ultralight NaB(CN)4.
    Gao Q, Jiao Y, Sun Q, Sprenger JAP, Finze M, Sanson A, Liang E, Xing X, Chen J.
    Angew Chem Int Ed Engl; 2024 Mar 22; 63(13):e202401302. PubMed ID: 38353130
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  • 8. Understanding Large Negative Thermal Expansion of NdFe(CN)6 through the Electronic Structure and Lattice Dynamics.
    Jiao Y, Gao Q, Sanson A, Liang E, Sun Q, Chen J.
    Inorg Chem; 2022 May 23; 61(20):7813-7819. PubMed ID: 35543502
    [Abstract] [Full Text] [Related]

  • 9. Strong Negative Thermal Expansion in a Low-Cost and Facile Oxide of Cu2P2O7.
    Shi N, Sanson A, Gao Q, Sun Q, Ren Y, Huang Q, de Souza DO, Xing X, Chen J.
    J Am Chem Soc; 2020 Feb 12; 142(6):3088-3093. PubMed ID: 31952444
    [Abstract] [Full Text] [Related]

  • 10. Large and tunable negative thermal expansion induced by a synergistic effect in M2II[MIV(CN)8] Prussian blue analogues.
    Wang C, Chang D, Gao Q, Liu C, Wang Q, Huang X, Jia Y.
    Phys Chem Chem Phys; 2020 Sep 07; 22(33):18655-18662. PubMed ID: 32794544
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  • 14. Understanding Negative Thermal Expansion of Zn2GeO4 through Local Structure and Vibrational Dynamics.
    Yuan H, Gao Q, Xu P, Guo J, He L, Sanson A, Chao M, Liang E.
    Inorg Chem; 2021 Feb 01; 60(3):1499-1505. PubMed ID: 33427443
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  • 15. Effect of H2O Molecules on Thermal Expansion of TiCo(CN)6.
    Gao Q, Shi X, Venier A, Carnera A, Huang Q, Wu H, Chen J, Sanson A, Liang E.
    Inorg Chem; 2020 Oct 19; 59(20):14852-14855. PubMed ID: 32985882
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  • 16. Expanded Prussian blue analogues incorporating [Re6Se8(CN)6](3-/4-) clusters: adjusting porosity via charge balance.
    Bennett MV, Beauvais LG, Shores MP, Long JR.
    J Am Chem Soc; 2001 Aug 22; 123(33):8022-32. PubMed ID: 11506558
    [Abstract] [Full Text] [Related]

  • 17. Critical Role of Nonrigid Unit and Spiral Acoustical Modes in Designing Colossal Negative Thermal Expansion.
    Gao Q, Jiao Y, Sprenger JAP, Finze M, Sanson A, Sun Q, Liang E, Chen J.
    J Am Chem Soc; 2024 Aug 07; 146(31):21710-21720. PubMed ID: 39054782
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