Hyperfine and Host−Guest Interactions of the Mu-Cyclohexadienyl Radical in NaY Zeolite

Fleming, Donald G.; Shelley, Mee; Arseneau, Donald J.; Senba, M.; Pan, Jingwen; Roduner, Emil

doi:10.1021/jp020378e

Cited by 22 publications

(122 citation statements)

References 75 publications

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“…Though hyperfine anisotropy and molecular reorientation of muoniated free radicals can give rise to asymmetric line shapes, 11,30,31,33 in the present study of neat butenes these are invariably symmetric lines and hence are amenable to Lorentzian fits. It is the positions of the ALC resonances, B r (Δ 1 ) and B r (Δ 0 ), that are important here and that are well determined from the fits, even for broad line resonances, giving the isotropic Hfcc of interest: for the muon, A μ , from the Δ 1 resonance, and for the proton, A p , for each group of magnetic equivalent nuclei, from the Δ 0 resonances, as defined by eqs 4 and 5,…”

Section: Methodsmentioning

confidence: 71%

“…Like the FT data, the Δ 1 ALC lines are particularly broad in the solid phase (J2000 G), partly due perhaps to the nonplanar nature of the dominant gauche conformer of 1-butene (paper I), giving rise to a more polycrystalline environment and hence to a larger expected hyperfine anisotropy. 30,31,33 This could also explain the broad FT lines seen in Figure 1 (top).…”

Section: Experimental Results and Trendsmentioning

confidence: 82%

“…Line shapes of this nature have mainly been investigated for the Mucyclohexadienyl radical in zeolites 31,33 and in soft matter 10 but also for the muoniated ethyl radical in zeolites. 11 However, fitting these data for the Δ 1 resonance with the assumption of an axial tensor at 10 and 60 K gave noticeably worse fits in the region of the minimum compared to the Lorentizan fits shown.…”

Section: Experimental Results and Trendsmentioning

confidence: 99%

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Isotope Effects and the Temperature Dependences of the Hyperfine Coupling Constants of Muoniated sec-Butyl Radicals in Condensed Phases

et al. 2011

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Reported here is the first μSR study of the muon (A(μ)) and proton (A(p)) β-hyperfine coupling constants (Hfcc) of muoniated sec-butyl radicals, formed by muonium (Mu) addition to 1-butene and to cis- and trans-2-butene. The data are compared with in vacuo spin-unrestricted MP2 and hybrid DFT/B3YLP calculations reported in the previous paper (I), which played an important part in the interpretation of the data. The T-dependences of both the (reduced) muon, A(μ)′(T), and proton, A(p)(T), Hfcc are surprisingly well explained by a simple model, in which the calculated Hfcc from paper I at energy minima of 0 and near ±120° are thermally averaged, assuming an energy dependence given by a basic 2-fold torsional potential. Fitted torsional barriers to A(μ)′(T) from this model are similar (~3 kJ/mol) for all muoniated butyl radicals, suggesting that these are dominated by ZPE effects arising from the C−Mu bond, but for A(p)(T) exhibit wide variations depending on environment. For the cis- and trans-2-butyl radicals formed from 2-butene, A(μ)′(T) exhibits clear discontinuities at bulk butene melting points, evidence for molecular interactions enhancing these muon Hfcc in the environment of the solid state, similar to that found in earlier reports for muoniated tert-butyl. In contrast, for Mu−sec-butyl formed from 1-butene, there is no such discontinuity. The muon hfcc for the trans-2-butyl radical are seemingly very well predicted by B3LYP calculations in the solid phase, but for sec-butyl from 1-butene, showing the absence of further interactions, much better agreement is found with the MP2 calculations across the whole temperature range. Examples of large proton Hfcc near 0 K are also reported, due to eclipsed C−H bonds, in like manner to C−Mu, which then also exhibit clear discontinuities in A(p)(T) at bulk melting points. The data suggest that the good agreement found between theory and experiment from the B3LYP calculations for eclipsed bonds in the solid phase may be fortuitous. For the staggered protons of the sec-butyl radicals formed, no discontinuities are seen at all in A(p)(T), also demonstrating no further effects of molecular interactions on these particular proton Hfcc.

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Section: Methodsmentioning

confidence: 71%

Section: Experimental Results and Trendsmentioning

confidence: 82%

Section: Experimental Results and Trendsmentioning

confidence: 99%

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Isotope Effects and the Temperature Dependences of the Hyperfine Coupling Constants of Muoniated sec-Butyl Radicals in Condensed Phases

et al. 2011

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“…The muoniated cyclohexadienyl radical has been observed in benzene-loaded NaY and the ALC-µSR spectrum is very dissimilar to the spectrum obtained for pure frozen benzene or benzene-loaded ZSM-5 [22]. There are four broad resonances in the | M| = 1 and methylene proton | M| = 0 region of the spectrum, as opposed to two in benzene and ZSM-5.…”

Section: B Reorientational Dynamics Of the Cyclohexadienyl Radical Inmentioning

confidence: 79%

Muon Spin Spectroscopy of Transient Radicals in Zeolites

Roduner

2008

Handbook of Heterogeneous Catalysis

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“…The majority of muons that do not capture electrons will react with the medium, forming diamagnetic species [15]. This process occurs within a picosecond through the following two reactions [3]…”

Section: Muon Thermalization and The Spur Model Of Muonium Formationmentioning

confidence: 99%

Presenting Muon Thermalization with Feynman QED

Morrison

Liu

Ghandi

2018

Proceedings of the 14th International Conference on Muon Spin Rotation, Relaxation and Resonance (ΜSR2017)

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This paper presents a new approach to describe  + thermalization using Feynman's formulation of Quantum Electrodynamics (QED) to predict quantities relevant to the  + thermalization process from fundamental physics. The approach is applied at leading order to the case of a close to thermal  + combining with a free electron to form muonium. Results were found to be mostly consistent with what has been proposed based on the spur (radiolysis) model.

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Hyperfine and Host−Guest Interactions of the Mu-Cyclohexadienyl Radical in NaY Zeolite

Cited by 22 publications

References 75 publications

Isotope Effects and the Temperature Dependences of the Hyperfine Coupling Constants of Muoniated sec-Butyl Radicals in Condensed Phases

Isotope Effects and the Temperature Dependences of the Hyperfine Coupling Constants of Muoniated sec-Butyl Radicals in Condensed Phases

Muon Spin Spectroscopy of Transient Radicals in Zeolites

Presenting Muon Thermalization with Feynman QED

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