Encapsulation of Xenon by a Self-Assembled Fe<sub>4</sub>L<sub>6</sub> Metallosupramolecular Cage

Roukala, Juho; Zhu, Jianfeng; Giri, Chandan; Rissanen, Kari; Lantto, Perttu; Telkki, Ville‐Veikko

doi:10.1021/ja5130176

Cited by 90 publications

(82 citation statements)

References 68 publications

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“…Spacious [Fe 4 L 6 ] 4− metallosupramolecular cage 85 was studied by Lantto, Telkki and co‐workers . Hyperpolarised 129 Xe‐ 29 Xe EXSY was used to calculate an exchange rate of k ex =10 s −1 between free and encapsulated xenon.…”

Section: Non‐covalent Molecular Recognitionmentioning

confidence: 99%

Mechanisms and Beyond: Elucidation of Fluxional Dynamics by Exchange NMR Spectroscopy

Nikitin

O'Gara

2019

Chemistry A European J

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Detailed mechanistic information is crucial to our understanding of reaction pathways and selectivity. Dynamic exchange NMR techniques, in particular 2D exchange spectroscopy (EXSY) and its modifications, provide indispensable intricate information on the mechanisms of organic and inorganic reactions and other phenomena, for example, the dynamics of interfacial processes. In this Review, key results from exchange NMR studies of small molecules over the last few decades are systemised and discussed. After a brief introduction to the theory, the key types of dynamic processes are identified and fundamental examples given of intra‐ and intermolecular reactions, which, in turn, could involve, or not, bond‐making and bond‐breaking events. Following that logic, internal molecular rotation, intramolecular stereomutation and molecular recognition will first be considered because they do not typically involve bond breaking. Then, rearrangements, substitution‐type reactions, cyclisations, additions and other processes affecting chemical bonds will be discussed. Finally, interfacial molecular dynamics and unexpected combinations of different types of fluxional processes will also be highlighted. How exchange NMR spectroscopy helps to identify conformational changes, coordination and molecular recognition processes as well as quantify reaction energy barriers and extract detailed mechanistic information by using reaction rate theory in conjunction with computational techniques will be shown.

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Section: Non‐covalent Molecular Recognitionmentioning

confidence: 99%

Mechanisms and Beyond: Elucidation of Fluxional Dynamics by Exchange NMR Spectroscopy

Nikitin

O'Gara

2019

Chemistry A European J

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“…The exponents of f functions are listed in Table S2 of the Supplemental Material of Ref. [51]. We tested the larger basis set at three Rb-Xe internuclear distances, 3, 5.4, and 7Å, to provide an estimate of the basis-set error, by which we corrected the CCSD(T) results obtained with the 428-function basis.…”

Section: Computations a Hyperfine Couplingmentioning

confidence: 99%

Electron and nuclear spin polarization in Rb-Xe spin-exchange optical hyperpolarization

et al. 2017

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Spin-exchange optical hyperpolarization of 129 Xe gas enhances the signal-to-noise ratio in nuclear magnetic resonance experiments. The governing parameter of the Rb-Xe spin-exchange process, the so-called enhancement factor, was recently reevaluated experimentally. However, the underlying hyperfine coupling and atomic interaction potential as functions of the internuclear distance of the open-shell Rb-Xe dimer have not been accurately determined to date. We present a piecewise approximation based on first-principles calculations of these parameters contributing to the NMR and EPR frequency shifts in the low-density Rb-Xe gas mixture of relevance to hyperpolarization experiments. Both Rb electron and 129 Xe nuclear spin polarizations are estimated based on a combination of electronic-structure calculations, observed frequency shifts, and an estimate of the Rb number density. Finally, an expression for the enhancement factor in terms of modern electronic-structure theory is obtained.

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“…[15] Interestingly the 31 P{ 1 H} SSNMR spectrum now shows sharp signals at d À23. [21] It also shows binding affinity in supramolecular cages, [22] oxide frameworks, [23] MOFs, [24] cryptophanes, [25] and porous coordinationcomplex salts; [26] and has been widely used as an NMR probe for the determination of pore size in framework materials, [27] due to the sensitivity of d( 129 Xe) to its local environment. This transformation is reversible,a nd when [20] V Xe /V cavity = 0.43).…”

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confidence: 99%

Reversible Encapsulation of Xenon and CH₂Cl₂ in a Solid‐State Molecular Organometallic Framework (Guest@SMOM)

2019

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Reversible encapsulation of CH 2 Cl 2 or Xe in anonporous solid-state molecular organometallic framework of [Rh(Cy 2 PCH 2 PCy 2 )(NBD)][BAr F 4 ]occurs in single-crystal to single-crystal transformations.T hese processes are probed by solid-state NMR spectroscopy, including 129 Xe SSNMR. Noncovalent interactions with the -CF 3 groups,a nd hydrophobic channels formed, of [BAr F 4 ] À anions are shown to be important, and thus have similarity to the transport of substrates and products to and from the active site in metalloenzymes.Supportinginformation and the ORCID identification number(s) for the author(s) of this article can be found under https://doi.org/10.

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Encapsulation of Xenon by a Self-Assembled Fe₄L₆ Metallosupramolecular Cage

Cited by 90 publications

References 68 publications

Mechanisms and Beyond: Elucidation of Fluxional Dynamics by Exchange NMR Spectroscopy

Mechanisms and Beyond: Elucidation of Fluxional Dynamics by Exchange NMR Spectroscopy

Electron and nuclear spin polarization in Rb-Xe spin-exchange optical hyperpolarization

Reversible Encapsulation of Xenon and CH₂Cl₂ in a Solid‐State Molecular Organometallic Framework (Guest@SMOM)

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Encapsulation of Xenon by a Self-Assembled Fe4L6 Metallosupramolecular Cage

Cited by 90 publications

References 68 publications

Mechanisms and Beyond: Elucidation of Fluxional Dynamics by Exchange NMR Spectroscopy

Mechanisms and Beyond: Elucidation of Fluxional Dynamics by Exchange NMR Spectroscopy

Electron and nuclear spin polarization in Rb-Xe spin-exchange optical hyperpolarization

Reversible Encapsulation of Xenon and CH2Cl2 in a Solid‐State Molecular Organometallic Framework (Guest@SMOM)

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Encapsulation of Xenon by a Self-Assembled Fe₄L₆ Metallosupramolecular Cage

Reversible Encapsulation of Xenon and CH₂Cl₂ in a Solid‐State Molecular Organometallic Framework (Guest@SMOM)