Abstract
SynopsisClathrate hydrates have been found to occur naturally, and have been extensively studied due to their important industrial applications, such as the storage of the CO2 from the atmosphere and control climate change. Thus, quantitative understanding of physical and chemical properties, as well as the factors that control the formation of CO2 hydrates, on both macroscopic and microscopic levels is essential in several areas of physical science.
Highlights
This content has been downloaded from IOPscience
Quantitative understanding of physical and chemical properties, as well as the factors that control the formation of CO2 hydrates, on both macroscopic and microscopic levels is essential in several areas of physical science
Carbon dioxide clathrate hydrates of sI type ν1+ν3 combination modes. This is in close agreeare essentially pure, and have been studied ex- ment with the characteristic double-peak profiles perimentally by X-ray, powder X-ray and neutron diffraction methods [1] while their spectroscopic characterization has been reported via Raobserved in the IR spectra of the CO2 clathrate hydrate at 5.6 K, supporting the CO2 single occupation of small and large cavities of man, solid-state NMR, and the infrared (IR) [2] the sI clathrate
Summary
This content has been downloaded from IOPscience. Please scroll down to see the full text. 2015 J. Confining CO2 inside the nanocavities of the sI clathrate: a quantum dynamics study Synopsis Clathrate hydrates have been found to occur naturally, and have been extensively studied due to their important industrial applications, such as the storage of the CO2 from the atmosphere and control climate change.
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