Future Study of Dense Superconducting Hydrides at High Pressure

The discovery of a record high superconducting transition temperature ( ) of 288 K in a pressurized hydride inspires new hope to realize ambient-condition superconductivity. Here, we give a perspective on the theoretical and experimental studies of hydride superconductivity. Predictions based on the...

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Bibliographic Details
Published in:Materials 2021-12, Vol.14 (24), p.7563
Main Authors: Wang, Dong, Ding, Yang, Mao, Ho-Kwang
Format: Article
Language:English
Subjects:
Chemical bonds
Density functional theory
Experiments
Hydrides
Hydrogen
Magnetic fields
Phase transitions
Predictions
Review
Superconductivity
Temperature
Transition temperature
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Summary:The discovery of a record high superconducting transition temperature ( ) of 288 K in a pressurized hydride inspires new hope to realize ambient-condition superconductivity. Here, we give a perspective on the theoretical and experimental studies of hydride superconductivity. Predictions based on the BCS-Eliashberg-Midgal theory with the aid of density functional theory have been playing a leading role in the research and guiding the experimental realizations. To date, about twenty hydrides experiments have been reported to exhibit high- superconductivity and their agree well with the predicted values. However, there are still some controversies existing between the predictions and experiments, such as no significant transition temperature broadening observed in the magnetic field, the experimental electron-phonon coupling beyond the Eliashberg-Midgal limit, and the energy dependence of density of states around the Fermi level. To investigate these controversies and the origin of the highest in hydrides, key experiments are required to determine the structure, bonding, and vibrational properties associated with H atoms in these hydrides.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma14247563