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Journal Abstract Search

117 related items for PubMed ID: 38874381

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  • 3. 3D negative thermal expansion in orthorhombic MIL-68(In).
    Liu Z, Li Q, Zhu H, Lin K, Deng J, Chen J, Xing X.
    Chem Commun (Camb); 2018 May 31; 54(45):5712-5715. PubMed ID: 29774355
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  • 4. Transformation of Thermal Expansion from Large Volume Contraction to Nonlinear Strong Negative Thermal Expansion in PbTiO3-Bi(Co1-xFex)O3 Perovskites.
    Pan Z, Jiang X, Yu R, Ren Y, Lin Z, Chen J, Azuma M, Xing X.
    ACS Appl Mater Interfaces; 2022 May 11. PubMed ID: 35544726
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  • 6. Structural Transitions of the Metal-Oxide Nodes within Metal-Organic Frameworks: On the Local Structures of NU-1000 and UiO-66.
    Platero-Prats AE, Mavrandonakis A, Gallington LC, Liu Y, Hupp JT, Farha OK, Cramer CJ, Chapman KW.
    J Am Chem Soc; 2016 Mar 30; 138(12):4178-85. PubMed ID: 26926342
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  • 8. Biphenyl tetracarboxylic acid-based metal-organic frameworks: a case of topology-dependent thermal expansion.
    Liu Z, Xing C, Wu S, Ma M, Tian J.
    Mater Horiz; 2024 Jul 15; 11(14):3345-3351. PubMed ID: 38683199
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  • 9. 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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  • 11. Atomic Linkage Flexibility Tuned Isotropic Negative, Zero, and Positive Thermal Expansion in MZrF6 (M = Ca, Mn, Fe, Co, Ni, and Zn).
    Hu L, Chen J, Xu J, Wang N, Han F, Ren Y, Pan Z, Rong Y, Huang R, Deng J, Li L, Xing X.
    J Am Chem Soc; 2016 Nov 09; 138(44):14530-14533. PubMed ID: 27783492
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  • 12. Impact of the Nature of the Organic Spacer on the Crystallization Kinetics of UiO-66(Zr)-Type MOFs.
    Ragon F, Chevreau H, Devic T, Serre C, Horcajada P.
    Chemistry; 2015 May 04; 21(19):7135-43. PubMed ID: 25788410
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  • 14. Charting the Metal-Dependent High-Pressure Stability of Bimetallic UiO-66 Materials.
    Rogge SMJ, Yot PG, Jacobsen J, Muniz-Miranda F, Vandenbrande S, Gosch J, Ortiz V, Collings IE, Devautour-Vinot S, Maurin G, Stock N, Van Speybroeck V.
    ACS Mater Lett; 2020 Apr 06; 2(4):438-445. PubMed ID: 32296781
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  • 15. Transforming Thermal Expansion from Positive to Negative: The Case of Cubic Magnetic Compounds of (Zr,Nb)Fe2.
    Song Y, Sun Q, Yokoyama T, Zhu H, Li Q, Huang R, Ren Y, Huang Q, Xing X, Chen J.
    J Phys Chem Lett; 2020 Mar 05; 11(5):1954-1961. PubMed ID: 32073860
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  • 16. Zr-Based Metal-Organic Frameworks with Intrinsic Peroxidase-Like Activity for Ultradeep Oxidative Desulfurization: Mechanism of H2O2 Decomposition.
    Zheng HQ, Zeng YN, Chen J, Lin RG, Zhuang WE, Cao R, Lin ZJ.
    Inorg Chem; 2019 May 20; 58(10):6983-6992. PubMed ID: 31041865
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  • 17. Tuning Thermal Expansion in Metal-Organic Frameworks Using a Mixed Linker Solid Solution Approach.
    Baxter SJ, Schneemann A, Ready AD, Wijeratne P, Wilkinson AP, Burtch NC.
    J Am Chem Soc; 2019 Aug 14; 141(32):12849-12854. PubMed ID: 31319663
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  • 18. Direct observation of a transverse vibrational mechanism for negative thermal expansion in Zn(CN)2: an atomic pair distribution function analysis.
    Chapman KW, Chupas PJ, Kepert CJ.
    J Am Chem Soc; 2005 Nov 09; 127(44):15630-6. PubMed ID: 16262430
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  • 19. Exploring the Role of Cluster Formation in UiO Family Hf Metal-Organic Frameworks with in Situ X-ray Pair Distribution Function Analysis.
    Firth FCN, Gaultois MW, Wu Y, Stratford JM, Keeble DS, Grey CP, Cliffe MJ.
    J Am Chem Soc; 2021 Dec 01; 143(47):19668-19683. PubMed ID: 34784470
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  • 20. Tunable uniaxial, area, and volume negative thermal expansion in quartz-like and diamond-like metal-organic frameworks.
    Wang L, Chen Y, Miura H, Suzuki K, Wang C.
    RSC Adv; 2022 Aug 04; 12(34):21770-21779. PubMed ID: 36043075
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