D. Boenigk scite author profile

The melting diagram of the system (CH3)4NFHF was studied between 50 and 100 mole‐% HF and from −185°C to the respective liquidus temperatures (at most 162°C) by difference thermal analysis aided by temperature‐dependent X‐ray powder diffraction. The system was found to be quasi‐binary with the HF‐rich intermediary stable compounds (CH3)4NF · 2 HF (melting point 110°C), (CH3)4NF · 3 HF (20°C, decomposition), (CH3)4NF · 5 HF (−76°C, decomposition), and (CH3)4NF · 7 HF (−110°C, decomposition), most of which undergo solid‐solid phase transitions. Crystal structures were determined of the low‐temperature form of (CH3)4NF · 2 HF (stable below 83°C, orthorhombic, space group Pbca, Z = 8 formula units per unit cell), the high‐temperature form of (CH3)4NF · 3 HF (stable above −87°C, monoclinic, P2/c, Z = 4), and of (CH3)4NF · 5 HF (tetragonal, I4, Z = 2). The structures are those of poly(hydrogen fluorides) (CH3)4N[HnFn+1] with homologous anions [H2F3]−, [H3F4]−, and [H5F6]−, respectively, formed by strong hydrogen bonding FH…︁F. The anion [H5F6]− is the first one of this composition established by crystal structure analysis. Its structure can be written as [(FH)2FHF(HF)2]− with four equivalent terminal hydrogen bonds of 248.4 pm and a very short central one of 226.6 pm (F…︁F distances) through a 4 point of the space group.

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Fluorides and fluoro acids. 12. Complex-anion homology and isomerism in the crystal structures of two potassium poly(hydrogen fluorides), KF.cntdot.2.cntdot.5HF and KF.cntdot.3HF

Mootz¹,

Boenigk²

1986

J. Am. Chem. Soc.

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Fluoride und Fluorosäuren, VII [1]. Kristallstrukturen von Säurehydraten und Oxoniumsalzen, XXII [2]. Hydratbildung der Trifluoressigsäure sowie Strukturen eines Monohydrats und eines Tetrahydrats [3]. / Fluorides and Fluoro Acids, VII [1] Crystal Structures of Acid Hydrates and Oxonium Salts, XXII [2]. Hydrate Formation of Trifluoroacetic Acid and Structures of a Monohydrate and a Tetrahydrate [3]

Mootz

Boenigk

1984

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The liquidus and solidus lines of the quasi binary system CF3COOH-H2O were determined by low temperature difference thermal analysis and the resulting phase relations controlled by X-ray powder diffraction. Formation of a monohydrate and a tetrahydrate, melting congruently at -43 and -16 °C, respectively, is confirmed. In addition a metastable form of the monohydrate and a low temperature form of the tetrahydrate, stable below -47 °C, are indicated. The crystal structures of the stable high temperature forms were determined. From these the monohydrate (tetragonal, space group I42d, Z = 16) is a true acid hydrate, CF3COOH-H2O, and the tetrahydrate (triclinic, P1̅, Z = 2) a hydrated oxonium salt, (H5O2)+[H(CF3COO)2]- · 6H2O.

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Contributions to hydrogen-fluoride crystal chemistry

Mootz

Pöll

Boenigk

et al. 1991

Journal of Fluorine Chemistry

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D. Boenigk

Fluorides and fluoro acids. Part 18. The system pyridine-hydrogen fluoride at low temperatures. Formation and crystal structures of solid complexes with very strong NHF and FHF hydrogen bonding

Poly(hydrogen Fluorides) with the Tetramethylammonium Cation: Preparation, Stability Ranges, Crystal Structures, [H_nF_n+1]⁻ Anion Homology, Hydrogen Bonding F‐H…︁F [2]

Fluorides and fluoro acids. 12. Complex-anion homology and isomerism in the crystal structures of two potassium poly(hydrogen fluorides), KF.cntdot.2.cntdot.5HF and KF.cntdot.3HF

Contributions to hydrogen-fluoride crystal chemistry

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D. Boenigk

Fluorides and fluoro acids. Part 18. The system pyridine-hydrogen fluoride at low temperatures. Formation and crystal structures of solid complexes with very strong NHF and FHF hydrogen bonding

Poly(hydrogen Fluorides) with the Tetramethylammonium Cation: Preparation, Stability Ranges, Crystal Structures, [HnFn+1]− Anion Homology, Hydrogen Bonding F‐H…︁F [2]

Fluorides and fluoro acids. 12. Complex-anion homology and isomerism in the crystal structures of two potassium poly(hydrogen fluorides), KF.cntdot.2.cntdot.5HF and KF.cntdot.3HF

Contributions to hydrogen-fluoride crystal chemistry

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Product

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Poly(hydrogen Fluorides) with the Tetramethylammonium Cation: Preparation, Stability Ranges, Crystal Structures, [H_nF_n+1]⁻ Anion Homology, Hydrogen Bonding F‐H…︁F [2]