APA

Fabbris G., Meyers D., Okamoto J., Pelliciari J., Disa A. S., Huang Y., Chen Z., Wu W. B., Chen C. T., Ismail-Beigi S., Ahn C. H., Walker F. J., Huang D. J., Schmitt T. & Dean M. P. M. (20180126). Orbital Engineering in Nickelate Heterostructures Driven by Anisotropic Oxygen Hybridization rather than Orbital Energy Levels. : Physical review letters.

Chicago

Fabbris G, Meyers D, Okamoto J, Pelliciari J, Disa A S, Huang Y, Chen Z-Y, Wu W B, Chen C T, Ismail-Beigi S, Ahn C H, Walker F J, Huang D J, Schmitt T and Dean M P M. 20180126. Orbital Engineering in Nickelate Heterostructures Driven by Anisotropic Oxygen Hybridization rather than Orbital Energy Levels. : Physical review letters.

Harvard

Fabbris G., Meyers D., Okamoto J., Pelliciari J., Disa A. S., Huang Y., Chen Z., Wu W. B., Chen C. T., Ismail-Beigi S., Ahn C. H., Walker F. J., Huang D. J., Schmitt T. and Dean M. P. M. (20180126). Orbital Engineering in Nickelate Heterostructures Driven by Anisotropic Oxygen Hybridization rather than Orbital Energy Levels. : Physical review letters.

MLA

Fabbris G, Meyers D, Okamoto J, Pelliciari J, Disa A S, Huang Y, Chen Z-Y, Wu W B, Chen C T, Ismail-Beigi S, Ahn C H, Walker F J, Huang D J, Schmitt T and Dean M P M. Orbital Engineering in Nickelate Heterostructures Driven by Anisotropic Oxygen Hybridization rather than Orbital Energy Levels. : Physical review letters. 20180126.