Characterization of Free Radicals in Clathrate Hydrates of Furan, 2,3-Dihydrofuran, and 2,5-Dihydrofuran by Muon Spin Spectroscopy

Mozafari, Mina; Brodovitch, Jean‐Claude; Chandrasena, Lalangi; Percival, Paul W.

doi:10.1021/acs.jpca.6b08653

Cited by 13 publications

(14 citation statements)

References 40 publications

(94 reference statements)

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“…[41][42][43][44] In previous work we showed that two distinct radicals are formed when muonium reacts with furan. 36 Similar behaviour might well be expected for Mu addition to thiophene and pyrrole (Scheme 1) and this is indeed indicated by the TF-µSR spectra ( Fig. 1).…”

Section: Identification Of Radical Productssupporting

confidence: 81%

“…By analogy with the muoniated radicals formed from furan 31,36 we can confidently assign the stronger signals obtained from thiophene and pyrrole to structures 4 and 6. It is significant that these radicals have smaller muon hfcs than the other two (3 and 5), consistent with the extended unpaired spin distribution in the allylic moieties of 4 and 6.…”

Section: Identification Of Radical Productsmentioning

confidence: 83%

“…Given the relatively large energy differences, we conclude that the relative yields are a result of kinetic control (differing activation energies) rather than thermodynamic. 36 The assignment of the radical signal obtained from isoxazole is not so straightforward. The DFT calculations indicate that 7 is the most stable radical structure, but for unequivocal assignment we turn to the results of the µLCR investigation.…”

Section: Identification Of Radical Productsmentioning

confidence: 99%

“…35,36 It is significant that two distinct radical products were identified for each of furan and 2,3-dihydrofuran, corresponding to Mu addition at inequivalent unsaturated carbon atoms.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of free radicals in clathrate hydrates of pyrrole, thiophene, and isoxazole by muon spin spectroscopy

et al. 2018

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Gas hydrates have long been of interest to the petrochemical industry but there has been growing interest in potential applications for carbon dioxide sequestration and hydrogen storage. This has prompted many fundamental studies of structure and host-guest interactions, but there has been relatively little investigation of chemical reactions of the guest molecules. In previous work we have shown that it is possible to use muon spin spectroscopy to characterize H-atom-like muonium and muoniated free radicals formed in clathrate hydrates. Muonium forms in clathrate hydrates of cyclopentane and tetrahydrofuran, whereas furan and its dihydro-derivatives form radicals. The current work extends studies to clathrates hydrates of other 5-membered heterocycles: thiophene, pyrrole and isoxazole. All form structure II hydrates. In addition to the clathrates, pure liquid samples of the heterocycles were studied to aid in the assignment of radical signals and for comparison with the enclathrated radicals. Similar to furan, two distinct radicals are formed when muonium reacts with thiophene and pyrrole. However, only one muoniated radical was detected from isoxazole. Muon, proton and nitrogen hyperfine constants were determined and compared with values predicted by DFT calculations to aid the structure assignments. The results show that Mu adds preferentially to the carbon adjacent to the heteroatom in thiophene and pyrrole, and to the carbon adjacent to O in isoxazole. The same radicals are formed in clathrates, but the spectra have broader signals, suggesting slower tumbling. Furthermore, additional signals in the avoided levelcrossing spectra indicate anisotropy consistent with restricted motion of the radicals in the clathrate cages.

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Section: Identification Of Radical Productssupporting

confidence: 81%

Section: Identification Of Radical Productsmentioning

confidence: 83%

Section: Identification Of Radical Productsmentioning

confidence: 99%

“…35,36 It is significant that two distinct radical products were identified for each of furan and 2,3-dihydrofuran, corresponding to Mu addition at inequivalent unsaturated carbon atoms.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of free radicals in clathrate hydrates of pyrrole, thiophene, and isoxazole by muon spin spectroscopy

et al. 2018

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“…In contrast, our own studies (Percival et al, 2014;Mozafari et al, 2016Mozafari et al, , 2017Mozafari et al, , 2018) employ a beam of spinpolarized positive muons (µ + ) which may be stopped in a sample under any desired condition. When the muons thermalize, some of them pick up an electron to form muonium (Mu = µ + e -), which can be considered a light isotope of hydrogen (mµ ≈ mp/9).…”

Section: Introductionmentioning

confidence: 94%

Investigation of H atom and free radical behaviour in clathrate hydrates of organic molecules

Mozafari

Chandrasena

McKenzie

et al. 2020

Radiation Physics and Chemistry

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Clathrate hydrates are icy materials composed of a lattice of water molecules containing well-defined cavities which can accommodate small guest molecules. Their large storage capacity makes clathrates attractive media for a variety of gas storage and separation applications, but there is relatively little information on the chemical stability and diffusion of guest molecules. At the fundamental level inter-cage transition energies have been calculated, but the results need to be tested with experimental data. Ideally this should involve single-atom transport, using an isotopic tracer or spin label. Muonium (Mu = µ + e-) qualifies on both counts. As a single-electron atom with the muon as nucleus it may be considered a light isotope of hydrogen. Furthermore muonium and its reaction products may be monitored by muon spin spectroscopy. In recent years we have used this method to probe H-atom and free radical behaviour in clathrate hydrates. The current work extends studies to benzene and acetone clathrate hydrates. Of note is the simultaneous detection of muonium and muoniated radicals in the same sample. This can happen when Mu is trapped in an empty cavity, remote from its reaction partner. Increase in temperature leads to transport of Mu between cages and results in encounters with reactive guest molecules. By studying the temperature dependence of Mu and radical signals, we have been able to determine the activation energy for transport of Mu between cavities.

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Characterization of Clathrate Hydrates Using Nuclear Magnetic Resonance Spectroscopy

Ratcliffe¹,

Moudrakovski²,

Ripmeester³

2022

Clathrate Hydrates

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Characterization of Free Radicals in Clathrate Hydrates of Furan, 2,3-Dihydrofuran, and 2,5-Dihydrofuran by Muon Spin Spectroscopy

Cited by 13 publications

References 40 publications

Characterization of free radicals in clathrate hydrates of pyrrole, thiophene, and isoxazole by muon spin spectroscopy

Characterization of free radicals in clathrate hydrates of pyrrole, thiophene, and isoxazole by muon spin spectroscopy

Investigation of H atom and free radical behaviour in clathrate hydrates of organic molecules

Characterization of Clathrate Hydrates Using Nuclear Magnetic Resonance Spectroscopy

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