Energetic Performances of ZIF-8 Derivatives: Impact of the Substitution (Me, Cl, or Br) on Imidazolate Linker

Mortada, Boushra; Chaplais, Gérald; Veremeienko, Vasyl; Nouali, Habiba; Marichal, Claire; Patarin, Joël

doi:10.1021/acs.jpcc.7b08999

Cited by 28 publications

(46 citation statements)

References 46 publications

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“…Interestingly they found that ZIF-8(Cl) exhibits a spring behavior with the highest amount of energy stored ever in high pressure intrusion-extrusion experiments. 11 These findings underline the potential of ZIFs for technical application. To exploit this potential, it is pivotal to gain an atomistic understanding of the underlying mechanisms, making molecular simulations a valuable tool, and the accurate description of the frameworks' flexibility a crucial goal.…”

Section: Introductionmentioning

confidence: 77%

Ab Initio Derived Force Fields for Zeolitic Imidazolate Frameworks: MOF-FF for ZIFs

Dürholt

Fraux

Coudert

et al. 2019

J. Chem. Theory Comput.

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In this paper we parameterized in a consistent way a new force field for a range of different zeolitic imidazolate framework systems (ZIF-8, ZIF-8(H), ZIF-8(Br) and ZIF-8(Cl)), extending the MOF-FF parameterization methodology in two aspects. First, we implemented the possibility to use periodic reference data in order to prevent the difficulty of generating representative finite clusters. Second, a new optimizer based on the covariance matrix adaptation evolutionary strategy (CMA-ES) was employed during the parameterization process. We confirmed that CMA-ES, as a state-of-the-art black box optimizer for problems on continuous variables, is more efficient and versatile for force field optimization than the previous genetic algorithm. The obtained force field was then validated with respect to some static and dynamic properties. Much effort was spent to ensure that the FF is able to describe the crucial linker swing effect in a large number of ZIF-8 derivatives. For this reason we compared our force field to 1 ab initio molecular dynamic simulations and found an accuracy comparable to those obtained by different exchange-correlation functionals.

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Section: Introductionmentioning

confidence: 77%

Ab Initio Derived Force Fields for Zeolitic Imidazolate Frameworks: MOF-FF for ZIFs

Dürholt

Fraux

Coudert

et al. 2019

J. Chem. Theory Comput.

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“…Since few years, we have developed a new type of application, i.e., energetic applications involving such materials from both experimental and modelling approches. [21][22][23][24][25][26][27][28] In a recent study, 27 These two halogenated hybrids were reported for the first time by Li et al [29][30] for the assessment of their kinetic separation properties of propane/propene. Even if the authors listed the related crystal data and structure refinement parameters and deposited the information in the Cambridge Structural Database, 31 as referenced as AWIWEJ and AWIWIN, actually for only the crude compounds, namely the hybrid matrixes with remaining occluded solvent molecules, no further details about the needed atomic positions were provided from the two sources.…”

Section: Introductionmentioning

confidence: 99%

Impacts of the Imidazolate Linker Substitution (CH₃, Cl, or Br) on the Structural and Adsorptive Properties of ZIF-8

et al. 2018

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Zeolitic Imidazolate Frameworks (ZIFs) represent a thriving sub-class of Metal-Organic Frameworks (MOFs) owing to the large variety of their topologies of which some of them are common with zeolites, and the ability to modulate the chemistry of their frameworks as well as the hydrophobicity/hydrophilicity balance, making them perfect examples of isoreticular chemistry concept. One peculiar structural feature of ZIFs is their potential for structural transitions by rotation (or swing) of their linkers under external stimuli (guest adsorption, mechanical constraints, etc.). This singular characteristic, often denominated "swing effect" or "gate opening", is related to flexible ZIFs. Our study focuses on the influence of the functional group (-CH 3 ,-Cl,-Br) bore in position 2 by the imidazolate linker on the flexible/stiff nature of three isoreticular ZIFs with SOD topology. In the first part, we report the structures of ZIF-8_Cl and ZIF-8_Br, two halogenated analogs of the well-known ZIF-8 (herein named ZIF-8_CH 3), thanks to synergistic contributions of powder X-ray diffraction and 13 C MAS NMR spectroscopy. In both cases, a disorder of the linker is noted and characterized by two quasi equal occupancies of the two linker subsets in the asymmetric unit. Experimental nitrogen sorption measurements, performed at 77 K for the three isoreticular ZIFs, combined with first principles molecular dynamics simulations bring to light the flexibility of ZIF-8_CH 3 and ZIF-8_Cl and the stiffness of ZIF-8_Br.

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“…18 ZIF-8 behavior can also be tuned chemically, by modifying the nature of the linkers, for example changing the 2-methylimidazolate to a 2-chloroimidazolate increases the intrusion pressure. 29 However, the exact mechanism and behavior at the molecular level upon intrusion of electrolytes in ZIF-8 are still unknown. In this work, we used classical molecular simulations to study the structure, dynamics and energetic implications of confining water and aqueous solutions of LiCl in ZIF-8.…”

Section: Introductionmentioning

confidence: 99%

Structure, Dynamics, and Thermodynamics of Intruded Electrolytes in ZIF-8

et al. 2019

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We report here the properties of LiCl aqueous solutions at various concentrations confined inside the pores of the ZIF-8 metal-organic framework, based on classical molecular dynamics simulations. This system has been proposed for applications in the storage or dissipation of mechanical energy, using the liquid-phase intrusion of concentrated electrolytes in the hydrophobic framework. We describe the structure of the liquids and the influence of confinement, their dynamics, the mechanical properties of ZIF-8 and the impact of liquid intrusion on them. We show that the presence of the electrolyte has a moderate impact on the ZIF-8 framework, while the presence of the ZIF-8 matrix strongly influences the behavior of the confined aqueous solution, affecting the overall properties of the system. We also computed the free energy profile for the entry of water molecules and ions into the nanopores, showing a difference between anions and cations.

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Energetic Performances of ZIF-8 Derivatives: Impact of the Substitution (Me, Cl, or Br) on Imidazolate Linker

Cited by 28 publications

References 46 publications

Ab Initio Derived Force Fields for Zeolitic Imidazolate Frameworks: MOF-FF for ZIFs

Ab Initio Derived Force Fields for Zeolitic Imidazolate Frameworks: MOF-FF for ZIFs

Impacts of the Imidazolate Linker Substitution (CH₃, Cl, or Br) on the Structural and Adsorptive Properties of ZIF-8

Structure, Dynamics, and Thermodynamics of Intruded Electrolytes in ZIF-8

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Energetic Performances of ZIF-8 Derivatives: Impact of the Substitution (Me, Cl, or Br) on Imidazolate Linker

Cited by 28 publications

References 46 publications

Ab Initio Derived Force Fields for Zeolitic Imidazolate Frameworks: MOF-FF for ZIFs

Ab Initio Derived Force Fields for Zeolitic Imidazolate Frameworks: MOF-FF for ZIFs

Impacts of the Imidazolate Linker Substitution (CH3, Cl, or Br) on the Structural and Adsorptive Properties of ZIF-8

Structure, Dynamics, and Thermodynamics of Intruded Electrolytes in ZIF-8

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Impacts of the Imidazolate Linker Substitution (CH₃, Cl, or Br) on the Structural and Adsorptive Properties of ZIF-8