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

Rodrigues, Alysson Duarte; Fahsi, Karim; Dumail, Xavier; Masquelez, Nathalie; Lee, Arie van der; Mallet‐Ladeira, Sonia; Sibille, Romain; Filhol, Jean‐Sébastien; Dutremez, Sylvain G.

doi:10.1002/chem.201703711

Cited by 10 publications

(12 citation statements)

References 189 publications

(388 reference statements)

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“…Metal–organic frameworks (MOFs) are advanced materials whose modular structure permits combining high microporosity with a range of functional properties. − Whereas MOF development has led to sophisticated functional materials, achieving thermodynamic stability by design remains a challenge. − For example, while the sensitivity of MOFs to hydrolytic degradation by water is a topic of high interest, , most studies have focused on kinetic aspects of the process, e.g., by introducing hydrophobic substituents − or changing MOF design to increase the strength of metal–linker bonds. − In contrast, thermodynamic driving forces behind MOF stability remain largely unexplored and poorly understood. We previously explored the relationship between the thermodynamic stability and the topology of zeolitic imidazolate frameworks (ZIFs), − a class of MOFs with topological diversity akin to zeolites. − This enabled quantitative evaluation of the structure-related energy differences between MOF polymorphs and indicated periodic density functional theory (DFT) − with semiempirical dispersion correction (SEDC) − as an accurate tool to calculate the relative thermodynamic stabilities of MOFs.…”

Section: Introductionmentioning

confidence: 99%

Linker Substituents Control the Thermodynamic Stability in Metal–Organic Frameworks

et al. 2020

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We report the first systematic experimental and theoretical study of the relationship between the linker functionalization and the thermodynamic stability of metal–organic frameworks (MOFs) using a model set of eight isostructural zeolitic imidazolate frameworks (ZIFs) based on 2-substituted imidazolate linkers. The frameworks exhibit a significant (30 kJ·mol–1) variation in the enthalpy of formation depending on the choice of substituent, which is accompanied by only a small change in molar volume. These energetics were readily reproduced by density functional theory (DFT) calculations. We show that these variations in the enthalpy of MOF formation are in linear correlation to the readily accessible properties of the linker substituent, such as the Hammett σ-constant or electrostatic surface potential. These results provide the first quantifiable relationship between the MOF thermodynamics and the linker structure, suggesting a route to design and tune MOF stability.

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Section: Introductionmentioning

confidence: 99%

Linker Substituents Control the Thermodynamic Stability in Metal–Organic Frameworks

et al. 2020

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“…Therefore, materials with controlled thermal expansion properties is highly desired in a variety of technological applications. , However, the design of molecules with controlled thermal expansion is very challenging because positive thermal expansion (PTE) of materials is a normal phenomenon in which most of the materials expand upon heating owing to the increase of the anharmonic vibration of bonds. There are some materials that contract upon heating or vice versathis phenomenon is commonly known as negative thermal expansion (NTE). ,, Recent development in NTE material has attracted significant interest due its potential applications in various fields such as thermomechanical actuators, cookware, sensors, and other applications. , In addition, NTE materials have been used to achieve controlled thermal expansion property in composite materials by mixing of NTE with PTE materials in a certain stoichiometric ratio. − Although NTE has been mostly observed in a number of oxide-based compounds, ,, framework materials including some metal cyanides − and three-dimensional (3D) and isotropic NTE has not been found in any organic material until date. Very few single-component organic materials are known for one- or two-dimensional (1D or 2D) NTE. − The fundamental problem to design new molecules with NTE properties is the understanding of the underlying mechanism which varies from material to material.…”

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confidence: 99%

Colossal Positive and Negative Axial Thermal Expansion Induced by Scissor-like Motion of a Two-Dimensional Hydrogen Bonded Network in an Organic Salt

Dwivedi

Shrivastava

Negi

et al. 2019

Crystal Growth & Design

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A variable temperature single crystal X-ray diffraction study revealed an unusual thermal expansion property of an organic salt, imidazolium 4-hydroxybenzene carboxylate, which exhibits colossal negative and positive axial thermal expansion along the crystallographic b axis and approximately along the a axis, respectively. The hydrogen bonded, two-dimensional square grid type of the flexible network in the crystal structure of the salt resembles a fencing structure that undergoes scissor-like motion resulting the abnormal thermal behavior. Thermal expansion induced by a scissor motion of the hydrogen bonded network in a multicomponent crystalline organic compound has not been reported before, although this mechanism is mentioned to elucidate colossal thermal expansion in some inorganic framework materials.

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“…Then, the overall quality of the calculations relative to the X-ray structure can be evaluated by optimization of all atom positions in the experimental unit cell, starting from the H-optimized structure. In this approach, the energy variation comes solely from the heavier atoms that are correctly positioned by X-ray diffraction, a large relaxation implying a poor description of the chemical bonds by DFT (provided that complicating factors such as phase transitions 87 are absent). This optimization leads to structures that are only 300 meV/f.u.…”

Section: Synthesismentioning

confidence: 99%

Pentafluorophenylphosphonic Acid as a New Building Block for Molecular Crystal Fabrication

Dutremez

Dumail

Mallet‐Ladeira

et al. 2021

Crystal Growth & Design

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Avance DRX 400. Chemical shifts were referenced as follows: 1 H (protio impurities of the NMR solvents), 13 C (NMR solvents), 19 F (CFCl3), 29 Si (Me4Si), 31 P (85% H3PO4). Solutionstate infrared spectra were recorded in the transmission mode on a Perkin Elmer 1600 Series FT-IR spectrometer with a 4 cm 1 resolution. Solid-state infrared spectra were recorded with a 4 cm 1 resolution on a PerkinElmer Spectrum Two FT-IR spectrometer equipped with a diamond crystal Attenuated Total Reflectance (ATR) unit. Electron impact (EI) mass spectra were obtained on a JEOL JMS-DX300 instrument and fast atom bombardment (FAB) spectra on a JEOL JMS-SX102 A machine. Coupled TGA-DSC experiments were conducted under a nitrogen flow (100 mL min 1 ) on a TA Instruments SDT-Q600 Simultaneous TGA / DSC apparatus, with a heating rate of 5 K/min. X-ray powder patterns were recorded on a PANalytical X'pert MPD-Pro diffractometer in the Bragg-Brentano - reflection geometry with Ni-filtered Cu Kα radiation (λ = 1.5418 Å). Measurements were performed at room temperature in the 3-60° 2θ range, using a step size of 0.033° and a counting time per step of 240 s. Elemental analysis of 3 was carried out at the Service Central de Microanalyse of the

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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

Cited by 10 publications

References 189 publications

Linker Substituents Control the Thermodynamic Stability in Metal–Organic Frameworks

Linker Substituents Control the Thermodynamic Stability in Metal–Organic Frameworks

Colossal Positive and Negative Axial Thermal Expansion Induced by Scissor-like Motion of a Two-Dimensional Hydrogen Bonded Network in an Organic Salt

Pentafluorophenylphosphonic Acid as a New Building Block for Molecular Crystal Fabrication

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