2013
DOI: 10.1002/anie.201306267
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Liquid Coordination Complexes Formed by the Heterolytic Cleavage of Metal Halides

Abstract: Liquids containing very high metal concentrations are of value for a number of applications: from electrochemistry and Lewis acidic catalysis through to metals refining and inorganic materials syntheses. In the ideal case, such liquids should have well-controlled and tunable metal coordination, leading to adjustable physical properties (i.e. viscosity modifiable from mobile liquid to glass). Some of these requirements have been met by concentrated aqueous or acetonitrile solutions, [1] molten metals/alloys, mo… Show more

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Cited by 108 publications
(130 citation statements)
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“…The peak at 103 ppm was attributed to the symmetrical tetrahedral anion AlCl 4 À , and the other one at 108 ppm was assigned to the cationic aluminum species, corresponding to [AlCl 2 (4-Pr-Py) 2 ] + , with similar tetrahedral structure. The downfield shift was caused by the coordination legend changes [25]. The two coordinated aluminum species observed by NMR spectra were consistent with those observed by mass spectroscopy.…”
Section: Resultssupporting
confidence: 81%
“…The peak at 103 ppm was attributed to the symmetrical tetrahedral anion AlCl 4 À , and the other one at 108 ppm was assigned to the cationic aluminum species, corresponding to [AlCl 2 (4-Pr-Py) 2 ] + , with similar tetrahedral structure. The downfield shift was caused by the coordination legend changes [25]. The two coordinated aluminum species observed by NMR spectra were consistent with those observed by mass spectroscopy.…”
Section: Resultssupporting
confidence: 81%
“…4D). However, the spectrum of AlCl 3 /urea = (22). The resonance at 52.7 ppm was broad and low intensity and is shown clearly in Fig.…”
Section: Resultsmentioning
confidence: 91%
“…At a composition of 1:1 two signals were observed, one is at 103.4 and the other one is at 108.3 ppm. The peak at 103.4 ppm is attributed to be AlCl 4 À , according to the literature, where it is found $ 103 ppm [31]. The peak at 108.3 ppm is due to cationic species like AlCl 3 À x L þ y (where x¼ 1À 2), possibly to [AlCl 2 (1-butylpyrrolidine) 2 ] þ .…”
Section: Resultsmentioning
confidence: 93%