Cocrystals Based on 4,4’-bipyridine: Influence of Crystal Packing on Melting Point

Ejarque, Daniel; Calvet, Teresa; Font-Bardı́a, Mercè; Pons, Josefina

doi:10.3390/cryst11020191

Cited by 18 publications

(15 citation statements)

References 59 publications

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“…Although previous studies have observed PE to be an important factor in stabilizing molecular assemblies in supramolecular compounds, [39] the result presented here fall in line with studies by Taylor et al., who determined that the stability of hydrogen bonded cocrystals was unaffected by PE , [16e] and Ejarque et al. who reported a similar finding when using the melting point of cocrystals as an indicator of crystal stability [40] . Therefore, we find that PE is not a sufficient descriptor of Δ H f for predicting crystal stability.…”

Section: Resultssupporting

confidence: 92%

Guiding Principles for the Rational Design of Hybrid Materials: Use of DFT Methodology for Evaluating Non‐Covalent Interactions in a Uranyl Tetrahalide Model System

et al. 2023

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Together with the synthesis and experimental characterization of 14 hybrid materials containing [UO2X4]2− (X=Cl− and Br−) and organic cations, we report on novel methods for determining correlation trends in their formation enthalpy (ΔHf) and observed vibrational signatures. ΔHf values were analyzed through isothermal acid calorimetry and a Density Functional Theory+Thermodynamics (DFT+T) approach with results showing good agreement between theory and experiment. Three factors (packing efficiency, cation protonation enthalpy, and hydrogen bonding energy [ ]) were assessed as descriptors for trends in ΔHf. Results demonstrated a strong correlation between and ΔHf, highlighting the importance of hydrogen bonding networks in determining the relative stability of solid‐state hybrid materials. Lastly, we investigate how hydrogen bonding networks affect the vibrational characteristics of uranyl solid‐state materials using experimental Raman and IR spectroscopy and theoretical bond orders and find that hydrogen bonding can red‐shift U≡O stretching modes. Overall, the tightly integrated experimental and theoretical studies presented here bridge the trends in macroscopic thermodynamic energies and spectroscopic features with molecular‐level details of the geometry and electronic structure. This modeling framework forms a basis for exploring 3D hydrogen bonding as a tunable design feature in the pursuit of supramolecular materials by rational design.

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Section: Resultssupporting

confidence: 92%

Guiding Principles for the Rational Design of Hybrid Materials: Use of DFT Methodology for Evaluating Non‐Covalent Interactions in a Uranyl Tetrahalide Model System

et al. 2023

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“…Melting point plays an important role in determining the purity and stability of synthetic products and materials. , Factors including crystal density, crystal packing, or included components can influence the melting point of a cocrystal. Thermogravimetric analysis (TGA) analysis was performed for GEM , AFC , BPA , and all the cocrystals to determine the decomposition temperature, as well as the temperature at which solvent molecules are liberated for the toluene solvate of 2 ·AFC·4,4′-AP· tol (see Table , as well as Figures S33–S45 in the SI).…”

Section: Resultsmentioning

confidence: 99%

Cocrystallization and Thermal Behaviors of the Micropollutants Gemfibrozil, Aceclofenac, and Bisphenol A

Zheng

Unruh

Hutchins

2022

Crystal Growth & Design

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Gemfibrozil (GEM) and bisphenol A (BPA) are two common micropollutants in wastewater worldwide, causing concern for aquatic life and human health. Aceclofenac (AFC) has the potential to be present, because of its similar structure to diclofenac, which is quite persistent in the environment. Here, we report a series of cocrystals involving GEM, AFC, and BPA with bipyridine acceptor molecules and discuss the reliability of supramolecular hydrogen-bonding synthons. One acceptor, 1,3bis(4-pyridyl)propane (4,4′-BPP), engages in both neutral and ionic hydrogen bonds with AFC. The cocrystal of AFC and 4,4′-BPP demonstrates the first example of a solid containing AFC wherein the intramolecular N−H•••O hydrogen bond in AFC is absent. We also show that cocrystallization significantly impacts the inherent thermal properties of AFC and BPA, whereas the thermal properties of GEM are not affected by cocrystallization. Most of the cocrystals were also synthesized by liquid-assisted milling in addition to solution-growth methods.

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“…[24][25][26] Its modulation has enabled the enhancement of the thermal stability and processability of the determined molecules through the formation of cocrystals. [27][28][29] Indeed, our group has previously studied the formation of cocrystals based on the acid⋯amide 30 and acid⋯pyridine heterosynthons 31 and the correlation of the crystal packing with their melting point values. 31 Therefore, aiming to extend our knowledge on the structure-property relationship of cocrystals focusing on the melting point, we have selected a liquid and a solid pyridine derivative (dPy), namely 4-acetylpyridine (4-Acpy) and 2-hydroxypyridine (2-OHpy), respectively.…”

Section: Introductionmentioning

confidence: 99%

“…[27][28][29] Indeed, our group has previously studied the formation of cocrystals based on the acid⋯amide 30 and acid⋯pyridine heterosynthons 31 and the correlation of the crystal packing with their melting point values. 31 Therefore, aiming to extend our knowledge on the structure-property relationship of cocrystals focusing on the melting point, we have selected a liquid and a solid pyridine derivative (dPy), namely 4-acetylpyridine (4-Acpy) and 2-hydroxypyridine (2-OHpy), respectively. It should be noted that 2-OHpy exists in equilibrium with its keto form (2-pyridone, Pdon), which in the solid state is preferentially shifted to Pdon.…”

Section: Introductionmentioning

confidence: 99%

Virtual assessment achieved two binary cocrystals based on a liquid and a solid pyridine derivative with modulated thermal stabilities

et al. 2023

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Cocrystals Based on 4,4’-bipyridine: Influence of Crystal Packing on Melting Point

Cited by 18 publications

References 59 publications

Guiding Principles for the Rational Design of Hybrid Materials: Use of DFT Methodology for Evaluating Non‐Covalent Interactions in a Uranyl Tetrahalide Model System

Guiding Principles for the Rational Design of Hybrid Materials: Use of DFT Methodology for Evaluating Non‐Covalent Interactions in a Uranyl Tetrahalide Model System

Cocrystallization and Thermal Behaviors of the Micropollutants Gemfibrozil, Aceclofenac, and Bisphenol A

Virtual assessment achieved two binary cocrystals based on a liquid and a solid pyridine derivative with modulated thermal stabilities

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