Journal article

First-principles prediction of doped graphane as a high-temperature electron-phonon superconductor

Abstract:: We predict by first-principles calculations that p-doped graphane is an electron-phonon superconductor with a critical temperature above the boiling point of liquid nitrogen. The unique strength of the chemical bonds between carbon atoms and the large density of electronic states at the Fermi energy arising from the reduced dimensionality give rise to a giant Kohn anomaly in the optical phonon dispersions and push the superconducting critical temperature above 90 K. As evidence of graphane was recently reported, and doping of related materials such as graphene, diamond, and carbon nanostructures is well established, superconducting graphane may be feasible. © 2010 The American Physical Society.

Actions

Email

Email this record

Send the bibliographic details of this record to your email address.

Your Email
Please enter the email address that the record information will be sent to.

-
Your message (optional)
Please add any additional information to be included within the email.
Cite

Cite this record

APA Style

Savini, G., Ferrari, A., & Giustino, F. (2010). First-principles prediction of doped graphane as a high-temperature electron-phonon superconductor. Physical Review Letters, 105(3).

MLA Style

Savini, G., et al. “First-Principles Prediction of Doped Graphane as a High-Temperature Electron-Phonon Superconductor.” Physical Review Letters, vol. 105, no. 3, 2010.

Chicago Style

Savini, G, A Ferrari, and F Giustino. 2010. “First-Principles Prediction of Doped Graphane as a High-Temperature Electron-Phonon Superconductor.” Physical Review Letters 105 (3).
Share
Print

Access Document

Publisher copy:: 10.1103/PhysRevLett.105.037002

Authors

+ Savini, G More by this author

Role:: Author

+ Ferrari, A More by this author

Role:: Author

+ Giustino, F More by this author

Institution:: University of Oxford
Division:: MPLS
Department:: Materials
Role:: Author

Journal:: Physical Review Letters More from this journal
Volume:: 105
Issue:: 3
Publication date:: 2010-07-14
DOI:: 10.1103/PhysRevLett.105.037002
EISSN:: 1079-7114
ISSN:: 0031-9007

Language:: English
Pubs id:: pubs:179042
UUID:: uuid:d8852be3-a365-4c87-aa23-94ee593ff3e0
Local pid:: pubs:179042
Source identifiers:: 179042
Deposit date:: 2012-12-19

Terms of use

Copyright date:: 2010

Licence:: Terms and Conditions of Use for Oxford University Research Archive

Views and Downloads

About views and downloads

If you are the owner of this record, you can report an update to it here: Report update to this record

TO TOP