2009
DOI: 10.1002/anie.200901275
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Sulfonium Boranes for the Selective Capture of Cyanide Ions in Water

Abstract: Owing to the presence of low lying s* orbitals, sulfonium ions are inherently Lewis acidic and can interact with electron-rich substrates to form donor-acceptor complexes. Although this phenomenon has been documented, [1] efforts to use sulfonium ions as a binding site in Lewis acidic hosts have not been reported. As part of our fundamental interest in the chemistry of polydentate Lewis acidic boranes, [2] we have become interested in probing the synthesis and properties of anion receptors containing accessib… Show more

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Cited by 167 publications
(82 citation statements)
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“…[123] In the European Union (EU) the corresponding limit for cyanide is 50 ppb (1.9 mM). [124] A successful strategy for meeting these stringent requirements involves Lewis acidic boron-based hosts that incorporate both acceptor sites and cationic ammonium, phosphonium, or sulfonium groups to provide water solubility. For example, the phosphonium borane 46 binds fluoride ions below the EPA contaminant level and provides a basic design for molecules that could be used in drinking water analysis.…”
Section: Chemical Sensorsmentioning
confidence: 99%
“…[123] In the European Union (EU) the corresponding limit for cyanide is 50 ppb (1.9 mM). [124] A successful strategy for meeting these stringent requirements involves Lewis acidic boron-based hosts that incorporate both acceptor sites and cationic ammonium, phosphonium, or sulfonium groups to provide water solubility. For example, the phosphonium borane 46 binds fluoride ions below the EPA contaminant level and provides a basic design for molecules that could be used in drinking water analysis.…”
Section: Chemical Sensorsmentioning
confidence: 99%
“…Owing to the presence of low lying * orbitals, sulfonium ions are inherently Lewis acidic and could interact with electron-rich substrates to form donor-acceptor complexes. Gabbaï et al [55] designed a CN  receptor 66 (Figure 18) containing accessible sulfonium ions. Addition of 50 ppb of CN  to a 4.0 M solution of 66 in pure water resulted in a 33% quenching of the fluorescence after one hour.…”
Section: Cyanide Ion Sensors Based On Triarylboron Compoundsmentioning
confidence: 99%
“…Many chemosensors have been recently developed for the detection of cyanide, [25][26][27][28] but only a few work in biological samples.…”
Section: 23mentioning
confidence: 99%