Scholars@Duke publication: Reformulation of DFT+U as a pseudo-hybrid Hubbard density functional for accelerated materials discovery

Reformulation of DFT+U as a pseudo-hybrid Hubbard density functional for accelerated materials discovery

Publication , Journal Article

Curtarolo, S; Agapito, LA; Buongiorno Nardelli, M

Published in: Phys. Rev.

2015

Duke Scholars

Author Stefano Curtarolo Thomas Lord Department of Mechanical Engineering and Materia ...

Published In

Phys. Rev.

Publication Date

2015

Volume

X 5

Issue

011006

Citation

APA

Chicago

ICMJE

MLA

NLM

Curtarolo, S., Agapito, L. A., & Buongiorno Nardelli, M. (2015). Reformulation of DFT+U as a pseudo-hybrid Hubbard density functional for accelerated materials discovery. Phys. Rev., X 5(011006).

Curtarolo, S., L. A. Agapito, and M. Buongiorno Nardelli. “Reformulation of DFT+U as a pseudo-hybrid Hubbard density functional for accelerated materials discovery.” Phys. Rev. X 5, no. 011006 (2015).

Curtarolo S, Agapito LA, Buongiorno Nardelli M. Reformulation of DFT+U as a pseudo-hybrid Hubbard density functional for accelerated materials discovery. Phys Rev. 2015;X 5(011006).

Curtarolo, S., et al. “Reformulation of DFT+U as a pseudo-hybrid Hubbard density functional for accelerated materials discovery.” Phys. Rev., vol. X 5, no. 011006, 2015.

Curtarolo S, Agapito LA, Buongiorno Nardelli M. Reformulation of DFT+U as a pseudo-hybrid Hubbard density functional for accelerated materials discovery. Phys Rev. 2015;X 5(011006).

Published In

Phys. Rev.

Publication Date

2015

Volume

X 5

Issue

011006