Methanol diffusion and dynamics in zeolite H-ZSM-5 probed by quasi-elastic neutron scattering and classical molecular dynamics simulations

Matam, Santhosh K.; Silverwood, Ian P.; Boudjema, Lotfi; O'Malley, Alexander J.; Catlow, C. Richard A.

doi:10.1098/rsta.2022.0335

Cited by 3 publications

(1 citation statement)

References 42 publications

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“…The molecular diffusion within the zeolite pores is an important influence on the efficacy of catalytic reactions and neutron scattering techniques, with their sensitivity to hydrogen, can be important probes of the dynamics of the diffusing species. In the study of Matam et al [ 10 ] Quasi Elastic Neutron Scattering (QENS) [ 11 , 12 ] is used to determine the diffusion of methanol in a series of zeolites at different temperatures is outlined. The zeolite catalyst studied, ZSM-5, is important in methanol to hydrocarbon (MTH) reactions and understanding the diffusion of methanol in these materials is accordingly both environmentally and commercially important since alternative methods of producing gasoline, olefins, and aromatics without relying on fossil fuels are key in achieving net zero carbon emission targets.…”

Section: Prefacementioning

confidence: 99%

Exploring the length scales, timescales and chemistry of challenging materials (Part 2)

Wilding,

Sella,

Howard

et al. 2023

Phil. Trans. R. Soc. A.

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This themed issue explores the different length and timescales that determine the physics and chemistry of a variety of key of materials, explored from the perspective of a wide range of disciplines, including physics, chemistry materials science, Earth science and biochemistry. The topics discussed include catalysis, chemistry under extreme conditions, energy materials, amorphous and liquid structure, hybrid organic materials and biological materials. The issue is in two parts, with this second set of contributions exploring hybrid organic materials, catalysis low-dimensional and graphitic materials, biological materials and naturally occurring, super-hard material as well as dynamic high pressure and new developments in imaging techniques pressure. This article is part of the theme issue 'Exploring the length scales, timescales and chemistry of challenging materials (Part 2)'.

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Section: Prefacementioning

confidence: 99%

Exploring the length scales, timescales and chemistry of challenging materials (Part 2)

Wilding,

Sella,

Howard

et al. 2023

Phil. Trans. R. Soc. A.

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Diffusion behaviors of binary mixtures of alkanes and aromatics through ZSM‐5 zeolite: A kinetic Monte Carlo study

Gray,

Kuhn,

Joseph

2024

AIChE Journal

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Diffusion of hydrocarbon species in an MFI‐type zeolite was investigated using a coarse‐grained approach combined with Kinetic Monte Carlo (KMC) simulations. The model was employed to capture and isolate the essential characteristics of hydrocarbon diffusion such as molecular pushing, passing, and blocking. A modified Lennard‐Jones type forcefield was used to approximate interactions between molecules, and molecules with the oxygen in the zeolite lattice. The basis for the rate expressions is configurational diffusion theory, which has been adjusted to account for an accurate representation of the motions of hydrocarbon molecules trapped in the zeolite. Diffusion coefficients were estimated for low and high loading of single hydrocarbons as well as binary mixtures. In all cases studied, reasonable agreement was achieved with reported experimental data and molecular dynamics simulations. The model is conceptualized as an analytical tool that may be used to address key engineering topics such as applications of zeolites as size‐selective barriers.

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Specific line shape of the lowest frequency Raman scattering modes of triethylene glycol

Ozama,

Amo,

Kameda

et al. 2024

The Journal of Chemical Physics

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For both dielectric spectroscopy and light scattering spectra, the relaxation modes in the microwave region have been characterized by the Debye relaxation model, which is determined by the peak frequency, or by an empirically extended model (e.g., Cole–Davidson and Kohlrausch–Williams–Watts), which has the appropriate line shape. For light scattering from glass-forming liquids, the general line shape is a broader high frequency side in comparison with Debye relaxation. However, for triethylene glycol (TEG) in liquid form at room temperature, the lowest frequency Raman scattering (LFR) mode shows a peak at about 3.0 GHz, which is narrower than that expected for the Debye relaxation. With increasing temperature, this peak exhibits a significant blueshift and begins to resemble the Debye relaxation shape, indicating that the LFR mode of TEG is also a relaxation mode. The narrowing of the LFR mode of TEG is suggested to be caused from the increased non-whiteness of the fluctuation correlations due to increased hydrogen bonding. This is a consequence of breaking the Debye relaxation model’s approximation of the overdamping and narrowing limits in the GHz region, which was found in this study by analyzing the relaxation modes of Raman scattering using the multiple random telegraph model for evaluating thermal bath correlation. The analysis results show that the LFR relaxation times of TEG and the main dielectric relaxation overlap only by 333 K. However, the second LFR mode and β-relaxation at higher frequencies coincide over a wide temperature range, suggesting that they are corresponding modes.

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Methanol diffusion and dynamics in zeolite H-ZSM-5 probed by quasi-elastic neutron scattering and classical molecular dynamics simulations

Cited by 3 publications

References 42 publications

Exploring the length scales, timescales and chemistry of challenging materials (Part 2)

Exploring the length scales, timescales and chemistry of challenging materials (Part 2)

Diffusion behaviors of binary mixtures of alkanes and aromatics through ZSM‐5 zeolite: A kinetic Monte Carlo study

Specific line shape of the lowest frequency Raman scattering modes of triethylene glycol

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