2018
DOI: 10.1002/ange.201810967
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Free Radical Reactivity of a Phosphaalkene Explored Through Studies of Radical Isotopologues

Abstract: Muonium (Mu), an H atom analogue, is employed to probe the addition of free radicals to the P=C bond of a phosphaalkene. Specifically, two unprecedented muoniated free radicals, MesP •-CMu(Me)2 (1a, minor product) and MesPMu-C • Me2 (1b, major product), were detected by muon spin spectroscopy (µSR) when a solution of MesP=CMe2 (1: Mes = 2,4,6trimethylphenyl) was exposed to a beam of positive muons (µ +). The µ + serves as a source of Mu (i.e. Mu = µ + + e-). To confirm the identity of the major product 1b, its… Show more

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Cited by 8 publications
(10 citation statements)
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“…This is rare, but in recent years we have reported several instances of related behaviour, where the amplitudes of precession frequencies vary sinusoidally with the delay between the muon stop and the time window used to Fourier transform the data. 14,[36][37][38] Careful examination of the allene data set revealed some effect for radicals 2b and 2d but not the others. The phenomenon of oscillating signal amplitudes is under examination in other systems where the effect is more marked.…”
Section: Further Discussionmentioning
confidence: 99%
“…This is rare, but in recent years we have reported several instances of related behaviour, where the amplitudes of precession frequencies vary sinusoidally with the delay between the muon stop and the time window used to Fourier transform the data. 14,[36][37][38] Careful examination of the allene data set revealed some effect for radicals 2b and 2d but not the others. The phenomenon of oscillating signal amplitudes is under examination in other systems where the effect is more marked.…”
Section: Further Discussionmentioning
confidence: 99%
“…In recent years we have applied muon spin spectroscopy to study the radical chemistry of low‐valent molecules containing silicon, germanium, and phosphorus . By studying monomer radicals we are able to gain more insight into the mechanism of polymerization, specifically the initial step of selective addition of radicals to different sites in the monomer. In addition, the structure of the parent compound can influence the possibility of migration of the radical centre, resulting in a different structure of the repeating unit of the polymer .…”
Section: Methodsmentioning
confidence: 99%
“…In 2019, Gates and Percival and coworkers reported μSR studies for elucidating free radical reactivity of phosphaalkenes by using 3. [13] not been fully understood, it seems to indicate delayed formation of a radical. [4b] μLCR was employed for confirming the muonium radicals generated from 3 and 4, because the Δ 0 (ΔM = 0) transitions could determine hfcs of the I = 1/2 nuclei ( 31 P and 1 H).…”
Section: Muonium Addition To An Acyclic Phosphaalkenementioning
confidence: 99%
“…This TF-μSR spectrum is compatible with the regioselective addition of muonium to 6 affording single observable radical species, which is in sharp contrast to the muoniation of anthracene affording three (or four) paramagnetic species. [19] Taking the potent high reactivity of P=C into account (see μSR of 3 in Section 3.1), [13] muonium would predominantly add to the phosphorus atom, and the benzene rings are reluctant to accept muonium. To confirm the regioselective muoniation, we conducted μLCR experiments with an isotropic solution sample of 6.…”
Section: μSr Studies Of a Peri-trifluoromethyl-substituted 9-phosphaa...mentioning
confidence: 99%