2001
DOI: 10.1021/jo0015725
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Characterization of Iodonium Salts Differing in the Anion

Abstract: The properties and reactivity of a series of iodonium salts with different anions were compared. The nucleophilicity of the anions in such compounds can be characterized by their melting points and NMR spectra. When using Quinaldine Red as indicator and CH3CN as solvent, the acid release rate of the iodonium salts correlated very well with their polymerization results in acid-sensitive epoxides.

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Cited by 29 publications
(29 citation statements)
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“…Therefore, these results show that the SiMo 12 moiety enhances the usual reactivity of the iodonium/TH salt. It is well known that the nucleophilicity of the anions correlates with the cationic photoinitiating ability of the iodonium salts; (a,b) remarkably, our work shows that the polyoxomolybdate anion improves the CP. Two initiating species are likely involved: (i) Ph‐I• + (Reaction 2c) for CP and (ii) the monomer cation M + formed in Reactions 3a and 3b, the monomer/phenyl radical hydrogen abstraction leading to a free‐radical‐promoted CP process; the phenyl radicals appear both in Reaction 2c (direct cleavage of the iodonium moiety) and Reactions 1, 2a; 2b (intramolecular polyoxomolybdate/iodonium electron transfer).…”
Section: Resultssupporting
confidence: 62%
See 1 more Smart Citation
“…Therefore, these results show that the SiMo 12 moiety enhances the usual reactivity of the iodonium/TH salt. It is well known that the nucleophilicity of the anions correlates with the cationic photoinitiating ability of the iodonium salts; (a,b) remarkably, our work shows that the polyoxomolybdate anion improves the CP. Two initiating species are likely involved: (i) Ph‐I• + (Reaction 2c) for CP and (ii) the monomer cation M + formed in Reactions 3a and 3b, the monomer/phenyl radical hydrogen abstraction leading to a free‐radical‐promoted CP process; the phenyl radicals appear both in Reaction 2c (direct cleavage of the iodonium moiety) and Reactions 1, 2a; 2b (intramolecular polyoxomolybdate/iodonium electron transfer).…”
Section: Resultssupporting
confidence: 62%
“…(a,b) Diaryliodonium, triarylsulfonium salts (and their corresponding substituted derivatives), and, more recently, thioxanthenium and arylthianthrenium (TH) salts are well‐known cationic PIs for the polymerization of epoxides. They consist of a cationic moiety (where the positively charged iodine or sulfur atom is linked to aromatic groups) and a counter anion . (a,b) The nucleophilicity of the anion strongly affects the efficiency of the polymerization because a high nucleophilic anion may terminate the cationic chain reaction.…”
Section: Introductionmentioning
confidence: 99%
“…The most effective in our hands is the system quinaldine red in acetonitrile or ethanol (Scheme 1). 18 We observe that the photobleaching rate of QR in acetonitrile correlates well with the basicity of the anions, while that in ethanol correlates well with the photosensitivity of the iodonium cations.…”
Section: Resultsmentioning
confidence: 66%
“…2 Herein, we successfully apply fluorescence probe techniques to evaluate these gallate salts in a typical epoxy silicone oligomers (I) and two other typical resins (II, III) (Figure 3), combining this with the evaluation of the rate of their photoacid release by using a fast analysis technique in solution previously developed in our group. [17][18][19] The results indicate that the larger sized and less nucleophilic tetrakis(pentafluorophenyl)gallate anion renders the iodonium salt more photosensitive. These novel salts show excellent polymerization characteristics.…”
Section: Introductionmentioning
confidence: 98%
“…[362,363]. Once the Brønsted acid is released, either by photolysis or thermolysis of an onium salt but also by the thermolysis or hydrolysis of a BF 3 -amine complex (see section 3.3.1.2), epoxy monomers are rapidly activated and polymerization proceeds very quickly according to the ring opening polymerization mechanism (Fig.…”
Section: Page 31 Of 163mentioning
confidence: 99%