2019
DOI: 10.1002/open.201800229
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Oxo‐Hydroxoferrate K2−xFe4O7−x(OH)x: Hydroflux Synthesis, Chemical and Thermal Instability, Crystal and Magnetic Structures

Abstract: The reaction of Fe(NO3)3⋅9 H2O with KOH under hydroflux conditions at about 200 °C produces red crystals of K2−xFe4O7−x(OH)x in a quantitative yield. In the crystal structure, edge‐sharing [FeO6] octahedra form ∞2[ Fe2O6] honeycomb nets. Pillars consisting of pairs of vertex‐sharing [FeO4] tetrahedra link the honeycomb layers and form columnar halls in which the potassium ions are located. The trigonal (P true3‾ 1m) and the hexagonal (P63/mcm) polytypes of K2−xFe4O7−x(OH)x show oriented intergrowth. The sub‐st… Show more

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Cited by 22 publications
(43 citation statements)
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“…In comparison with Mössbauer spectroscopic data of other iron oxides and hydroxides, the isomer shift is in good agreement with iron(III) in tetrahedral coordination . The 6 K spectrum shows full magnetic hyperfine field splitting with B Hf =47.5(1) T, similar to K 2−x [Fe 4 O 7−x (OH) x ] . For the spectrum at room temperature we observe similar full magnetic hyperfine field splitting but with a reduced hyperfine field of B Hf =36.8(1) T. The temperature dependence of the hyperfine field usually follows a Brillouin function.…”
Section: Resultssupporting
confidence: 75%
See 1 more Smart Citation
“…In comparison with Mössbauer spectroscopic data of other iron oxides and hydroxides, the isomer shift is in good agreement with iron(III) in tetrahedral coordination . The 6 K spectrum shows full magnetic hyperfine field splitting with B Hf =47.5(1) T, similar to K 2−x [Fe 4 O 7−x (OH) x ] . For the spectrum at room temperature we observe similar full magnetic hyperfine field splitting but with a reduced hyperfine field of B Hf =36.8(1) T. The temperature dependence of the hyperfine field usually follows a Brillouin function.…”
Section: Resultssupporting
confidence: 75%
“…The base concentration q ( A ) of the hydroflux turned out to be the most important factor for the synthesis of the oxohydroxoferrates. With KOH, four phases were found in different concentration ranges: α ‐Fe 2 O 3 , K 2−x [Fe 4 O 7−x (OH) x ], K , and KFeO 2 (Figure ). q (K)≤0.5 results in phase pure α ‐Fe 2 O 3 in the form of dark‐red hexagonal crystals (Figure S1, Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…This kind of stacking creates an oxoferrate framework with large interlayer voids where the potassium cations reside. The sub‐stoichiometric potassium content is compensated by hydroxide groups, so that every iron in K 2–x Fe 4 O 7–x (OH) x is trivalent as confirmed by Mößbauer spectroscopy [1] . The [FeO 4 ] tetrahedra pairs can be arranged in a staggered or an ecliptic configuration, giving rise to different polytypes [1] .…”
Section: Introductionmentioning
confidence: 94%
“…Recently, we synthesized the potassium oxohydroxoferrate K 2–x Fe 4 O 7–x (OH) x ( x ≈ 0.3) [1] with the hydroflux method, which uses a ultrabasic reaction medium consisting of an approximately equimolar mixture of alkali metal hydroxide and water [2] . In the specific case, we used potassium hydroxide for the hydroflux and Fe(NO 3 ) 3 ⋅ 9H 2 O as iron source.…”
Section: Introductionmentioning
confidence: 99%
“…Only a few examples are known, for instance the redox system of copper compounds in a sodium and/or potassium hydroxide hydroflux or for the synthesis of potassium oxohydroxoferrates, in which the base concentration is the most important parameter. [10,25,26] Crystal Structure X-ray diffraction on a bluish-green single-crystal revealed the composition KSrMnO 4 and an orthorhombic structure in the space group P2 1 2 1 2 1 (no. 19) with the lattice parameters a = 743.26(7) pm, b = 575.72(6) pm and c = 987.2(1) pm at 100(1) K (Figure 2; Tables S1-S4, Supporting Information).…”
Section: Synthesismentioning
confidence: 99%