Hydrogen Clusters in Clathrate Hydrate
Carnegie Institution for Science · University of Chicago · +3 more institutions
Abstract
High-pressure Raman, infrared, x-ray, and neutron studies show that H2 and H2O mixtures crystallize into the sII clathrate structure with an approximate H2/H2O molar ratio of 1:2. The clathrate cages are multiply occupied, with a cluster of two H2 molecules in the small cage and four in the large cage. Substantial softening and splitting of hydrogen vibrons indicate increased intermolecular interactions. The quenched clathrate is stable up to 145 kelvin at ambient pressure. Retention of hydrogen at such high temperatures could help its condensation in planetary nebulae and may play a key role in the evolution of icy bodies.
Citation impact
- FWCI
- 13.76
- Percentile
- 100%
- References
- 26
Authors
10- WLWendy L. MaoCorresponding
Carnegie Institution for Science, University of Chicago, Geophysical Laboratory
- HMHo‐kwang Mao
Carnegie Institution for Science, Geophysical Laboratory
- AFAlexander F. Goncharov
Carnegie Institution for Science, Geophysical Laboratory
- VVViktor V. Struzhkin
Carnegie Institution for Science, Geophysical Laboratory
- QGQuanzhong Guo
Carnegie Institution for Science, Geophysical Laboratory
Topics & keywords
- Clathrate hydrate
- Raman spectroscopy
- Chemistry
- Cluster (spacecraft)
- Hydrogen
- Molecule
- Chemical physics
- Intermolecular force