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Duarte Rodrigues A, Fahsi K, Dumail X, et al. Joint Experimental and Computational Investigation of the Flexibility of a Diacetylene-Based Mixed-Linker MOF: Revealing the Existence of Two Low-Temperature Phase Transitions and the Presence of Colossal Positive and Giant Negative Thermal Expansions. Chemistry. 2018;24(7):1586-1605doi: 10.1002/chem.201703711.
Duarte Rodrigues, A., Fahsi, K., Dumail, X., Masquelez, N., van der Lee, A., Mallet-Ladeira, S., Sibille, R., Filhol, J. S., & Dutremez, S. G. (2018). Joint Experimental and Computational Investigation of the Flexibility of a Diacetylene-Based Mixed-Linker MOF: Revealing the Existence of Two Low-Temperature Phase Transitions and the Presence of Colossal Positive and Giant Negative Thermal Expansions. Chemistry (Weinheim an der Bergstrasse, Germany), 24(7), 1586-1605. https://doi.org/10.1002/chem.201703711
Duarte Rodrigues, Alysson, et al. "Joint Experimental and Computational Investigation of the Flexibility of a Diacetylene-Based Mixed-Linker MOF: Revealing the Existence of Two Low-Temperature Phase Transitions and the Presence of Colossal Positive and Giant Negative Thermal Expansions." Chemistry (Weinheim an der Bergstrasse, Germany) vol. 24,7 (2018): 1586-1605. doi: https://doi.org/10.1002/chem.201703711
Duarte Rodrigues A, Fahsi K, Dumail X, Masquelez N, van der Lee A, Mallet-Ladeira S, Sibille R, Filhol JS, Dutremez SG. Joint Experimental and Computational Investigation of the Flexibility of a Diacetylene-Based Mixed-Linker MOF: Revealing the Existence of Two Low-Temperature Phase Transitions and the Presence of Colossal Positive and Giant Negative Thermal Expansions. Chemistry. 2018 Feb 01;24(7):1586-1605. doi: 10.1002/chem.201703711. Epub 2018 Jan 04. PMID: 29115702.
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