References
- Sloan ED Jr. Fundamental principles and applications of natural gas hydrates. Nature. 2003;426:353–363.
- Fleyfel F, Devlin JP. Carbon dioxide clathrate hydrate epitaxial growth: spectroscopic evidence for formation of the simple type-II carbon dioxide hydrate. J Phys Chem. 1991;95:3811–3815.
- Mao WL, Mao HK, Goncharov AF, Struzhkin VV, Guo Q, Hu J, Shu J, Hemley RJ, Somayazulu M, Zhao Y. Hydrogen clusters in clathrate hydrate. Science. 2002;297:2247–2249.
- Lee H, Lee JW, Kim DY, Park J, Seo Y-T, Zeng H, Moudrakovski IL, Ratcliffe CI, Ripmeester JA. Tuning clathrate hydrates for hydrogen storage. Nature. 2005;434:743–746.
- Nakajima T, Akatsu S, Ohmura R, Takeya S, Mori YH. Molecular storage of ozone in a clathrate hydrate formed from an O3+O2+CO2 gas mixture. Angew Chem Int Ed. 2011;123:10524–10527.
- Kvenvolden KA. Potential effects of gas hydrate on human welfare. Proc Nat Acad Sci USA. 1999;96:3420–3426.
- Sum AK, Burruss RC, Sloan ED. Measurement of clathrate hydrates via Raman spectroscopy. J Phys Chem B. 1997;101:7371–7377.
- Uchida T, Hirano T, Ebinuma T, Narita H, Gohara K, Mae S, Matsumoto R. Raman spectroscopic determination of hydration number of methane hydrates. AIChE J. 1999;45:2641–2645.
- Schicks JM, Erzinger J, Ziemann MA. Raman spectra of gas hydrates − differences and analogies to ice 1h and (gas saturated) water. Spectrochim Acta A. 2005;61:2399–2403.
- Dartois E, Deboffle D, Bouzit M. Methane clathrate hydrate infrared spectrum II. Near-infrared overtones, combination modes and cages assignments. Astr Astrophys. 2010;514:A49.
- Chazallon B, Focsa C, Charlou JL, Bourry C, Donval JP. A comparative Raman spectroscopic study of natural gas hydrates collected at different geological sites. Chem Geol. 2007;244:175–185.
- Schober H, Itoh H, Klapproth A, Chihaia V, Kuhs WF. Guest–host coupling and anharmonicity in clathrate hydrates. Eur Phys J E. 2003;12:41–49.
- Qin J, Kuhs WF. Quantitative analysis of gas hydrates using Raman spectroscopy. AIChE J. 2013;59:2155–2167.
- Cha M, Shin K, Lee H. Spectroscopic identification of amyl alcohol hydrates through free OH observation. J Phys Chem B Lett. 2009;113:10562–10565.
- Celli M, Powers A, Colognesi D, Xu M, BaČić Z, Ulivi L. Experimental inelastic neutron scattering spectrum of hydrogen hexagonal clathrate-hydrate compared with rigorous quantum simulations. J Chem Phys. 2013;139:164507.
- Tse JS, Shpakov VP, Murashov VV, Belosludov VR. The low frequency vibrations in clathrate hydrates. J Chem Phys. 1997;107:9271.
- Tse JS, Ratcliffe CI, Powell BM, Sears VF, Handa YP. Rotational and translational motions of trapped methane. Incoherent inelastic neutron scattering of methane hydrate. J Phys Chem A. 1997;101:4491–4495.
- Gutt C, Asmussen B, Press W, Johnson MR, Handa YP, Tse JS. The structure of deuterated methane–hydrate. J Chem Phys. 2000;113:4713.
- Chazallon B, Itoh H, Koza M, Kuhs WF, Schober H. Anharmonicity and guest–host coupling in clathrate hydrates. Phys Chem Chem Phys. 2002;4:4809–4816.
- Tse JS, Klug DD, Zhao JY, Sturhahn W, Alp EE, Baumert J, Gutt C, Johnson MR, Press W. Anharmonic motions of Kr in the clathrate hydrate. Nat Mater. 2005;4:917–921.
- Itoh H, Kawamura K. Molecular dynamics simulations of clathrate hydrate: intramolecular vibrations of methane. Ann N. Y. Acad Sci. 2000;912:693–701.
- Greathouse JA, Cygan RT, Simmons BA. Vibrational spectra of methane clathrate hydrates from molecular dynamics simulation. J Phys Chem B. 2006;110:6428–6431.
- Castillo-Borja F, Vázquez-Román R, Bravo-Sánchez UI. The effect of flexibility on thermodynamic and structural properties in methane hydrates. Mol Simul. 2008;34:661–670.
- Tse JS. Vibrations of methane in structure I clathrate hydrate – an ab initio density functional molecular dynamics study. Supramol Chem. 2002;2:429–433.
- Hiratsuka M, Ohmura R, Sum AK, Yasuoka K. Molecular vibrations of methane molecules in the structure I clathrate hydrate from ab initio molecular dynamics simulation. J Chem Phys. 2012;136:044508.
- Hiratsuka M, Ohmura R, Sum AK, Yasuoka K. Vibrational modes of methane in the structure H clathrate hydrate from ab initio molecular dynamics simulation. J Chem Phys. 2012;137:144306.
- Car R, Parrinello M. Unified approach for molecular dynamics and density-functional theory. Phys Rev Lett. 1985;55:2471–2474.
- CPMD. Copyright IBM Corp 1990–2008, Copyright MPI für Festkörper-forschung Stuttgart 1997–2001. Available from: http://www.cpmd.org/.
- Perdew J, Burke K, Ernzerhof M. Generalized gradient approximation made simple. Phys Rev Lett. 1996;77:3865–3868.
- Troullier N, Martins JL. Efficient pseudopotentials for plane-wave calculations. Phys Rev B. 1991;43:1993–2006.
- Kleinman L, Bylander DM. Efficacious form for model pseudopotentials. Phys Rev Lett. 1982;48:1425–1428.
- McMullan RK, Jeffrey GA. Polyhedral clathrate hydrates. IX. Structure of ethylene oxide hydrate. J Chem Phys. 1965;42:2725.
- Takeuchi F, Hiratsuka M, Ohmura R, Alavi S, Sum AK, Yasuoka K. Water proton configurations in structures I, II, and H clathrate hydrate unit cells. J Chem Phys. 2013;138:124504.
- Shpakov VP, Tse JS, Tulk CA, Kvamme B, Belosludov VR. Elastic moduli calculation and instability in structure I methane clathrate hydrate. Chem Phys Lett. 1998;282:107–114.
- Yoshida K, Matubayasi N, Uosaki Y, Nakahara M. Density effect on infrared spectrum for supercritical water in the low- and medium-density region studied by molecular dynamics simulation. J Chem Phys. 2012;137:194506.
- Yoshida K, Matubayasi N, Uosaki Y, Nakahara M. Effect of heavy hydrogen isotopes on the vibrational line shape for supercritical water through rotational couplings. J Chem Phys. 2013;138:134508.
- Subramanian S, Sloan ED. Trends in vibrational frequencies of guests trapped in clathrate hydrate cages. J Phys Chem B. 2002;106:4348–4355.
- Pimentel GC, Charles SW. Infrared spectral perturbations in matrix experiments. Pure Appl Chem. 1963;7:111–123.