Ionothermal Synthesis, Structures, and Magnetism of Three New Open Framework Iron Halide-Phosphates

Abstract: A set of different open framework iron phosphates have been synthesized ionothermally using a task-specific ionic liquid, 1-butyl-4-methylpyridinium hexafluorophosphate, that acts in the synthesis as the reaction medium and mineralizer: (NH4)2Fe2(HPO4)­(PO4)­Cl2F (1) and K2Fe2(HPO4)­(PO4)­Cl2F (2) exhibit similar composition and closely related structural features. Both structures consist of {Fe2(HPO4)­(PO4)­Cl2F}2– macroanions and charge balancing ammonium or potassium cations. Their open framework structure … Show more

“…In contrast, the bridging F position has no active metals as possible electron donors leading to the shortening of the bond lengths being comparable to similar bonds in other iron fluorophosphates. 27 The LiO 4 tetrahedra are quite irregular with a relatively large spread in interatomic distances, ( d Li–O = 1.93–2.16(2) Å). P–O and P–F distances in the corresponding fluorophosphates tetrahedra are in the ranges 1.467–1.525(5) and 1.523–1.580(6) Å, respectively.…”

“…Crystalline samples of all compounds could be yielded via an ionothermal synthesis approach in which ILs were used as a solvent, structuredirecting agent, and mineralizer supporting crystal growth. 7,25,27,42 Single crystal X-ray diffraction (SCXRD) analyses reveal that NaFe(PO 3 F) 2 (1a) crystallizes orthorhombically (SG Fdd2, a = 9.728(1) Å, b = 42.246(5) Å, c = 8.506(1) Å, V = 3495.4(8) Å 3 , and Z = 24) and is a polymorphic modification of the previously reported monoclinic analogue (1b). 4 3 The crystal structure of NaFe(PO 3 F) 2 (1a) is built up of distorted FeO 6 octahedra and PO 3 F tetrahedra.…”

“… 7 , 23 − 25 Iron phosphates can form porous structures 26 and a variety of such frameworks have been obtained in the laboratory by the hydrothermal approach. 27 − 32 The obtained porous materials are particularly interesting due to their magnetism. For that reason, they have been investigated as magnetic sensors or magnetic separation media.…”

From a Dense Structure to Open Frameworks: The Structural Plethora of Alkali Metal Iron Fluorophosphates

“…In contrast, the bridging F position has no active metals as possible electron donors leading to the shortening of the bond lengths being comparable to similar bonds in other iron fluorophosphates. 27 The LiO 4 tetrahedra are quite irregular with a relatively large spread in interatomic distances, ( d Li–O = 1.93–2.16(2) Å). P–O and P–F distances in the corresponding fluorophosphates tetrahedra are in the ranges 1.467–1.525(5) and 1.523–1.580(6) Å, respectively.…”

“…Crystalline samples of all compounds could be yielded via an ionothermal synthesis approach in which ILs were used as a solvent, structuredirecting agent, and mineralizer supporting crystal growth. 7,25,27,42 Single crystal X-ray diffraction (SCXRD) analyses reveal that NaFe(PO 3 F) 2 (1a) crystallizes orthorhombically (SG Fdd2, a = 9.728(1) Å, b = 42.246(5) Å, c = 8.506(1) Å, V = 3495.4(8) Å 3 , and Z = 24) and is a polymorphic modification of the previously reported monoclinic analogue (1b). 4 3 The crystal structure of NaFe(PO 3 F) 2 (1a) is built up of distorted FeO 6 octahedra and PO 3 F tetrahedra.…”

“… 7 , 23 − 25 Iron phosphates can form porous structures 26 and a variety of such frameworks have been obtained in the laboratory by the hydrothermal approach. 27 − 32 The obtained porous materials are particularly interesting due to their magnetism. For that reason, they have been investigated as magnetic sensors or magnetic separation media.…”

From a Dense Structure to Open Frameworks: The Structural Plethora of Alkali Metal Iron Fluorophosphates

“…All of the peaks between 900 and 1300 cm –1 are attributed to the symmetric stretching vibration of O–P–O, and the peaks at around 400–630 cm –1 may correspond to the fundamental frequency of the PO 4 tetrahedral groups . In Rb­[SnF­(HPO 4 )], the peak at 457 cm –1 is the infrared absorption peak of Sn–F, and the broad peaks at 1610, 2347, and 2738 cm –1 are attributed to the bending and stretching vibrations of hydroxy groups. − In Rb­[SnF­(HPO 4 )], hydrogen atoms associate with PO 4 groups to form HPO 4 groups, and hydrogen bonds are formed between adjacent HPO 4 groups. The formation of hydrogen bonds affects the polarization of PO 4 and causes the absorption peak to become wider.…”

Tin(II)-Induced Large Birefringence Enhancement in Metal Phosphates

“…[11][12][13][14][15] They lead to the formation of supramolecular structures, which can be beneficially used in the designed synthesis of new materials. For example, they can be used for templating open-framework materials, 16 to allow the morphological control of nanoparticles 17 and even for phase control of polymorphic materials. 18 These effects rely both on the interaction of the IL ions with each other, leading to the formation of a highly structured solvent where clear segregation of domains occurs, 19,20 but also on the interaction of the IL ions with the solutes and nuclei of materials formed in them during synthesis.…”

Developing design tools for introducing and tuning structural order in ionic liquids