Anionic Species (FH)xF- in Room-Temperature Molten Fluorides (CH3)4NF·mHF

Shodai, Yoshio; Kohara, Shinji; Ohishi, Yasuo; Inaba, Masaaki; Tasaka, Akimasa

doi:10.1021/jp036607u

Cited by 34 publications

(54 citation statements)

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“…Structural characteristics of EMImFHF at both the liquid and solid states and RMIm(FH) 2.3 F in the liquid state were studied using X-ray diffraction techniques [23][24][25]. Some spectroscopic data are also available for TMA(FH) n F (TMA = tetramethylammonium, n = 3.0-5.0) salts that show some HF dissociation pressures at ambient temperatures [26]. Cs(FH) 2.3 F is also a potential electrolyte for electrochemical energy conversion devices like other fluorohydrogenate salts.…”

Section: Introductionmentioning

confidence: 99%

Cesium fluorohydrogenate, Cs(FH)2.3F

Matsumoto

Ohtsuki

Hagiwara

et al. 2006

Journal of Fluorine Chemistry

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Cs(FH) 2.3 F is a liquid salt exhibiting a low viscosity of 20.1 cP and a high conductivity of 86.3 mS cm À1 at 25 8C, in spite of the relatively high melting point (16.9 8C). The high density of 2.82 g cm À3 at the liquid state is due to the heavy atomic weight and small size of cesium atom compared to the organic cations of general ionic liquids. The infrared spectroscopy indicates that this salt contains (FH) 2 F À as a main anionic species. The other anionic species such as (FH) 3 F À found in the cases of other M + (HF) 2.3 F (M = a univalent organic cation) ionic liquid salts is not detected, suggesting its small abundance as well as the presence of neutral HF in the form of molecular and/or oligomers. The result of 1 H NMR also suggests that the anions exchange HF between them. These observations coincide with the experimental result that Cs(FH) 2.3 F acts as an acid against general ionic liquid fluorohydrogenates such as EMIm(FH) 2.3 F (EMIm = 1-ethyl-3-methylimidazolium) to lose HF and give Cs(FH) 2 F precipitate. #

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Section: Introductionmentioning

confidence: 99%

Cesium fluorohydrogenate, Cs(FH)2.3F

Matsumoto

Ohtsuki

Hagiwara

et al. 2006

Journal of Fluorine Chemistry

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“…In a solution such as DME, Et 4 NFÁ4HF may dissociate to Et 4 N + , F(HF)n À (n = 1-3), and HF [30][31][32][33]. Moreover, it was also found that DME was oxidized simultaneously during the electrolysis of substrates, which can suppress overoxidation of both the substrates and products, particularly at a later stage of the electrolysis [27].…”

Section: Solvent Effect On the Efficiency Of Selective Anodic Fluorinmentioning

confidence: 92%

Unique solvent effects on selective electrochemical fluorination of organic compounds

Fuchigami

2007

Journal of Fluorine Chemistry

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“…The (FH) n F − anions are regarded as an ion where F − is bound to one or more HF molecules. The H−F bond in (FH) n F − is known as "strong hydrogen bond" [9] and has been a target of theoretical and computational studies [10][11][12][13] as well as X-ray diffractional and vibrational spectroscopic studies. The smallest fluorohydrogenate ion is FHF − with D ∞h symmetry which is determined in a number of crystal structures ( Figure 5.2 (a)) [5,[14][15][16][17][18][19][20][21][22].…”

Section: Structural Properties Of Fluorohydrogenate Anionsmentioning

confidence: 99%