Meltable, Glass-Forming, Iron Zeolitic Imidazolate Frameworks

We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24. This material, elusive from direct synthesis, is obtained from the thermal treatment of [Fe3(im)6(Him)2], which yields Fe(im)2 upon loss of the neutral imidazole molecules. Different crystalline phase tr...

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Published in	Journal of the American Chemical Society Vol. 145; no. 20; pp. 11258 - 11264
Main Authors	León-Alcaide, Luis, Christensen, Rasmus S., Keen, David A., Jordá, José L., Brotons-Alcázar, Isaac, Forment-Aliaga, Alicia, Mínguez Espallargas, Guillermo
Format	Journal Article
Language	English
Published	United States American Chemical Society 24.05.2023
Subjects	glass heat heat treatment imidazole liquids vitrification X-radiation
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Abstract	We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24. This material, elusive from direct synthesis, is obtained from the thermal treatment of [Fe3(im)6(Him)2], which yields Fe(im)2 upon loss of the neutral imidazole molecules. Different crystalline phase transformations are observed upon further heating, until the material melts at 482 °C. Vitrification upon cooling of the liquid phase gives rise to the first Fe-metal–organic framework glass. X-ray total scattering experiments show that the tetrahedral environment of the crystalline solids is maintained in the glass, whereas nanoindentation measurements reveal an increase in Young’s modulus, in agreement with stiffening upon vitrification.
AbstractList	We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24. This material, elusive from direct synthesis, is obtained from the thermal treatment of [Fe₃(im)₆(Him)₂], which yields Fe(im)₂ upon loss of the neutral imidazole molecules. Different crystalline phase transformations are observed upon further heating, until the material melts at 482 °C. Vitrification upon cooling of the liquid phase gives rise to the first Fe-metal–organic framework glass. X-ray total scattering experiments show that the tetrahedral environment of the crystalline solids is maintained in the glass, whereas nanoindentation measurements reveal an increase in Young’s modulus, in agreement with stiffening upon vitrification. We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted . This material, elusive from direct synthesis, is obtained from the thermal treatment of [Fe (im) (Him) ], which yields Fe(im) upon loss of the neutral imidazole molecules. Different crystalline phase transformations are observed upon further heating, until the material melts at 482 °C. Vitrification upon cooling of the liquid phase gives rise to the first Fe-metal-organic framework glass. X-ray total scattering experiments show that the tetrahedral environment of the crystalline solids is maintained in the glass, whereas nanoindentation measurements reveal an increase in Young's modulus, in agreement with stiffening upon vitrification. We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24. This material, elusive from direct synthesis, is obtained from the thermal treatment of [Fe3(im)6(Him)2], which yields Fe(im)2 upon loss of the neutral imidazole molecules. Different crystalline phase transformations are observed upon further heating, until the material melts at 482 °C. Vitrification upon cooling of the liquid phase gives rise to the first Fe-metal-organic framework glass. X-ray total scattering experiments show that the tetrahedral environment of the crystalline solids is maintained in the glass, whereas nanoindentation measurements reveal an increase in Young's modulus, in agreement with stiffening upon vitrification.We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24. This material, elusive from direct synthesis, is obtained from the thermal treatment of [Fe3(im)6(Him)2], which yields Fe(im)2 upon loss of the neutral imidazole molecules. Different crystalline phase transformations are observed upon further heating, until the material melts at 482 °C. Vitrification upon cooling of the liquid phase gives rise to the first Fe-metal-organic framework glass. X-ray total scattering experiments show that the tetrahedral environment of the crystalline solids is maintained in the glass, whereas nanoindentation measurements reveal an increase in Young's modulus, in agreement with stiffening upon vitrification. We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24. This material, elusive from direct synthesis, is obtained from the thermal treatment of [Fe3(im)6(Him)2], which yields Fe(im)2 upon loss of the neutral imidazole molecules. Different crystalline phase transformations are observed upon further heating, until the material melts at 482 °C. Vitrification upon cooling of the liquid phase gives rise to the first Fe-metal–organic framework glass. X-ray total scattering experiments show that the tetrahedral environment of the crystalline solids is maintained in the glass, whereas nanoindentation measurements reveal an increase in Young’s modulus, in agreement with stiffening upon vitrification. We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24 . This material, elusive from direct synthesis, is obtained from the thermal treatment of [Fe 3 (im) 6 (Him) 2 ], which yields Fe(im) 2 upon loss of the neutral imidazole molecules. Different crystalline phase transformations are observed upon further heating, until the material melts at 482 °C. Vitrification upon cooling of the liquid phase gives rise to the first Fe-metal–organic framework glass. X-ray total scattering experiments show that the tetrahedral environment of the crystalline solids is maintained in the glass, whereas nanoindentation measurements reveal an increase in Young’s modulus, in agreement with stiffening upon vitrification.
Author	León-Alcaide, Luis Keen, David A. Forment-Aliaga, Alicia Christensen, Rasmus S. Jordá, José L. Brotons-Alcázar, Isaac Mínguez Espallargas, Guillermo
AuthorAffiliation	Instituto de Ciencia Molecular (ICMol) Universitat Politècnica de València−Consejo Superior de Investigaciones Científicas Rutherford Appleton Laboratory Center for Integrated Materials Research, Department of Chemistry and iNANO ISIS Facility Instituto de Tecnología Química (UPV-CSIC)
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Snippet	We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24. This material, elusive from direct synthesis, is obtained from... We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted . This material, elusive from direct synthesis, is obtained from the... We describe the first meltable iron-based zeolitic imidazolate framework (ZIF), denoted MUV-24 . This material, elusive from direct synthesis, is obtained from...
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SubjectTerms	glass heat heat treatment imidazole liquids vitrification X-radiation
Title	Meltable, Glass-Forming, Iron Zeolitic Imidazolate Frameworks
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