2021
DOI: 10.1063/5.0039323
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Computational density-functional approaches on finite-size and guest-lattice effects in CO2@sII clathrate hydrate

Abstract: We performed first-principles computations to investigate guest-host/host-host effects on the encapsulation of the CO 2 molecule in sII clathrate hydrates from finite-size clusters up to periodic 3D crystal lattice systems. Structural and energetic properties were first computed for the individual and first-neighbors clathrate-like sII cages, where highly accurate ab initio quantum chemical methods are available nowadays, allowing in this way the assessment of the density functional (DFT) theoretical approache… Show more

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Cited by 11 publications
(25 citation statements)
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“…Looking for a computational affordable method to calculate energies in larger systems up to crystalline hydrate frameworks, we have also assessed the performance of different DFT functionals. Specifically, we have consider those functionals which showed a better behavior in previous studies of clathratelike systems, 35,43,45,58,61,72 namely the PW86PBE, 73,74 revPBE, 75 B3LYP 76 and PBE0 77 functionals, together with dispersion corrections, such as the original zero-damping function, D3(0), 78 as well as the most popular Becke-Johnson damping function, D3(BJ), 79 the most recent developed, D4, 80,81 and the exchange-hole dipole moment (XDM) model. 82 All the DFT calculations were performed using Gaussian 83 and Orca 65 (in the case of the revPBE and B3LYP functionals) packages with the additional dispersion corrections computed by the DFT-D3, 84 DFT-D4 85 and POSTG 86,87 programs.…”
Section: Electronic Structure Calculations: Energies and Structuresmentioning
confidence: 99%
“…Looking for a computational affordable method to calculate energies in larger systems up to crystalline hydrate frameworks, we have also assessed the performance of different DFT functionals. Specifically, we have consider those functionals which showed a better behavior in previous studies of clathratelike systems, 35,43,45,58,61,72 namely the PW86PBE, 73,74 revPBE, 75 B3LYP 76 and PBE0 77 functionals, together with dispersion corrections, such as the original zero-damping function, D3(0), 78 as well as the most popular Becke-Johnson damping function, D3(BJ), 79 the most recent developed, D4, 80,81 and the exchange-hole dipole moment (XDM) model. 82 All the DFT calculations were performed using Gaussian 83 and Orca 65 (in the case of the revPBE and B3LYP functionals) packages with the additional dispersion corrections computed by the DFT-D3, 84 DFT-D4 85 and POSTG 86,87 programs.…”
Section: Electronic Structure Calculations: Energies and Structuresmentioning
confidence: 99%
“…In view of the complexity of the problem, most of the previous studies , have highlighted the importance of fully coupled quantum treatments of both nuclear and electronic degrees of freedom of such nine-dimensional (9D) guest–host systems. Thus, our current investigation , aims to contribute to the field by proposing a systematic protocol to crosscheck first-principles methodologies on noncovalent guest–host interactions and an efficient procedure within the multiconfiguration time-dependent Hartree (MCTDH) framework , to treat the nuclear quantum dynamics of any nanoconfined light molecule. Here, our efforts are focused on fully coupled quantum treatments employing available three-dimensional (3D) and six-dimensional (6D) potentials for the isolated and enclathrated H 2 O molecule, respectively.…”
Section: Introductionmentioning
confidence: 99%
“…The bulk modulus obtained for the He@sI/sII clathrates at PW86PBE-XDM/D4 level (Table 1) are smaller than those obtained for other systems. 3,12 For example, for the CO 2 @sI hydrate values of 13.64/12.53 GPa for the bulk modulus have been recently reported, while in the He@sI the values obtained are 12.140/10.632 GPa for the same functionals. In the case of CO 2 @sII, these values are 17.149/16.053 GPa, whereas for the He@sII hydrate we obtained 15.851/15.084 GPa.…”
Section: Resultsmentioning
confidence: 91%
“…Therefore, transitions between different phases can occur or even several structures can coexist. 3 Is it important to emphasize the need to understand the stability of these systems, taking into account nuclear quantum effects, 26,27 as well as the mechanisms involved in their formation/dissociation, 28 since new structures can be found by both filling with guest molecules 23 or by emptying 16,29 the corresponding hydrate cavities or even the inter-cage molecule migration of one cage to the neighboring ones, [30][31][32] under certain P-T conditions. 33 This may be useful and relevant, not only from a fundamental point of view, given that new regimes of the phase diagram of water can be investigated, such as low-density ice structures, 34,35 but also from a practical point of view, since promising applications of gas hydrates can be further explored, such as gas storage materials, [36][37][38] potential energy sources, 39,40 gas separation, [41][42][43] energy transport 44,45 and desalination techniques.…”
Section: Introductionmentioning
confidence: 99%
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