Disorder of Hydrofluorocarbon Molecules Entrapped in the Water Cages of Structure I Clathrate Hydrate

Takeya, Satoshi; Udachin, Konstantin A.; Moudrakovski, Igor L.; Ohmura, Ryo; Ripmeester, John A.

doi:10.1002/chem.201600122

Cited by 20 publications

(26 citation statements)

References 51 publications

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“…The 19 F NMR spectroscopy data show that CH 2 F 2 hydrate formed at 263 K and 0.5 MPa (Figure 3b) occupy 5 12 6 2 cages completely and 5 12 cages partially (the occupancy ratio is approximately 0.24). 46 Our calculation results show that only the CH 2 F 2 hydrate with 5 12 6 2 cages completely occupied can form under this condition. The discrepancy between our results and the experiment may be since the experiment is a statistical rule.…”

Section: ■ Models and Methodsmentioning

confidence: 73%

“…According to the Thomson−Berthelot 45 where θ L and θ S represent the occupancy rates of large 5 12 6 2 cage and small 5 12 cage, respectively. 46 where θ L and θ S represent the occupancy rates of large 5 12 6 2 cage and small 5 12 1a to determine the relative chemical potential when the lines with minimum ΔG intersect intuitively. The line with m = 8 (black yellow line, corresponding to 8CH 4 @46H 2 O) has the minimum ΔG when Δμ CH 4 (T, p) ≥ −33.82 kJ/mol.…”

Section: ■ Models and Methodsmentioning

confidence: 99%

“…Phase Diagram of CH 3 F Hydrate. The relationship between ΔG of hydrate and Δμ 46 where θ L and θ S represent the occupancy rates of large 5 12 6 2 cage and small 5 12 cage, respectively. 47 where θ L and θ S represent the occupancy rates of large 5 12 6 2 cage and small 5 12 2b.…”

Section: ■ Models and Methodsmentioning

confidence: 99%

“…This finding is consistent with the experimental observation that CH 3 F hydrate formed at 263 K and 1.5 MPa (Figure 2b) can almost fully occupy both 5 12 and 5 12 6 2 cages (5 12 cage occupancy of 0.87 and 5 12 6 2 cage occupancy of 1.0). 46 Phase Diagram of CH 2 F 2 Hydrate. The functional relationship between ΔG of hydrate and Δμ CH 2 F 2 (T, p) of CH 2 F 2 molecules at different occupancy rates is shown in Figure 3a.…”

Section: ■ Models and Methodsmentioning

confidence: 99%

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Phase Diagrams and Spectral Characteristics of Hydrofluorocarbon Hydrates: Insights from First-Principles Thermodynamics

Sun

et al. 2021

ACS Sustainable Chem. Eng.

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Understanding the phase equilibrium conditions of hydrofluorocarbon (HFC) hydrates is significant to reduce greenhouse gas emissions and synthetic hydrates in experiments. Herein, we construct the phase diagrams of hydrates with HFCs (CH3F, CH2F2, CHF3, and CF4) as guest molecules through density functional theory and compare them with that of CH4 hydrate. At temperature and pressure that can be reproduced experimentally, the CH3F hydrate has one stable phase (the fully occupied phase 8CH3F@46H2O), and the CH2F2 hydrate has two stable phases (the large-cage fully occupied phase 6CH2F2@46H2O and the large- and small-cage fully occupied phase 8CH2F2@46H2O). The CHF3 hydrate has one stable phase (the large-cage fully occupied phase 6CHF3@46H2O), and the CF4 hydrate has one stable phase (the large-cage fully occupied phase 6CF4@46H2O). The Raman spectra and NMR chemical shifts of guest molecules are also briefly analyzed. With the increasing number of F atoms in guest molecules, the C–H symmetric stretching frequency of guest molecules in cages shows a blueshift, and the 13C NMR chemical shifts of HFCs molecules in cages shift to the positive direction. Our theoretical research shows the optimal equilibrium conditions of HFCs hydrates as refrigerants and provides theoretical guidance for the formation of HFCs hydrates in experiments.

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Section: ■ Models and Methodsmentioning

confidence: 73%

Section: ■ Models and Methodsmentioning

confidence: 99%

Section: ■ Models and Methodsmentioning

confidence: 99%

Section: ■ Models and Methodsmentioning

confidence: 99%

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Phase Diagrams and Spectral Characteristics of Hydrofluorocarbon Hydrates: Insights from First-Principles Thermodynamics

Sun

et al. 2021

ACS Sustainable Chem. Eng.

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“…The small 5 12 cages are the same in sI and sII hydrates, but the volume of the cage for Xe hydrate is clearly larger than those of Kr and Ar hydrates. The difference could be caused by a difference in crystal structure, but the volume of the 5 12 cage of Xe hydrate is larger than that of the other sI hydrates at the same temperature in the literature such as CH 4 hydrate (164 Å 3 ) . In contrast, the volume of the 5 12 6 2 cage of Xe hydrate is smaller than that of CH 4 hydrate (230 Å 3 ) since their unit‐cell sizes are almost the same.…”

Section: Resultsmentioning

confidence: 89%

Structure and Density Comparison of Noble Gas Hydrates Encapsulating Xenon, Krypton and Argon

Takeya

Hachikubo

2019

ChemPhysChem

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Understanding the effect of guest species on the host framework is important for the development of structure‐based properties of inclusion compounds. Herein, the crystal structures of the noble gas hydrates encapsulating Xe, Kr, and Ar were studied by powder X‐ray diffraction measurements. The crystal structures and hydration numbers of these noble gas hydrates were solved by Rietveld refinements using optimized models with the direct‐space technique. It was revealed that host cage size of these hydrates changed depending on the type of guest species even though their unit‐cell parameters were the same. Based on the structure models obtained, the densities of Xe, Kr, and Ar gas hydrates were also determined to be 1.837, 1.445 and 1.097 g/cm3 at 93 K, respectively. Our findings, from a crystallographic point of view, may give insight into further understanding the thermodynamic stability and physical properties of gas hydrates encapsulating small guests.

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Classification of Clathrate Hydrates

Ripmeester¹,

Takeya²,

Alavi³

2022

Clathrate Hydrates

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Disorder of Hydrofluorocarbon Molecules Entrapped in the Water Cages of Structure I Clathrate Hydrate

Cited by 20 publications

References 51 publications

Phase Diagrams and Spectral Characteristics of Hydrofluorocarbon Hydrates: Insights from First-Principles Thermodynamics

Phase Diagrams and Spectral Characteristics of Hydrofluorocarbon Hydrates: Insights from First-Principles Thermodynamics

Structure and Density Comparison of Noble Gas Hydrates Encapsulating Xenon, Krypton and Argon

Classification of Clathrate Hydrates

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