Predicting a graphene-like WB4 nanosheet with a double Dirac cone, an ultra-high Fermi velocity and significant gap opening by spin–orbit coupling

MLA

Steven E. Bottle, et al. “Predicting a Graphene-like WB4 Nanosheet with a Double Dirac Cone, an Ultra-High Fermi Velocity and Significant Gap Opening by Spin–orbit Coupling.” Physical Chemistry Chemical Physics, vol. 19, Jan. 2017, pp. 5449–53. EBSCOhost, https://doi.org/10.1039/c7cp00157f.

APA

Steven E. Bottle, Zhongfang Chen, Aijun Du, Fengxian Ma, Mingwen Zhao, Yalong Jiao, & Chunmei Zhang. (2017). Predicting a graphene-like WB4 nanosheet with a double Dirac cone, an ultra-high Fermi velocity and significant gap opening by spin–orbit coupling. Physical Chemistry Chemical Physics, 19, 5449–5453. https://doi.org/10.1039/c7cp00157f

Chicago

Steven E. Bottle, Zhongfang Chen, Aijun Du, Fengxian Ma, Mingwen Zhao, Yalong Jiao, and Chunmei Zhang. 2017. “Predicting a Graphene-like WB4 Nanosheet with a Double Dirac Cone, an Ultra-High Fermi Velocity and Significant Gap Opening by Spin–orbit Coupling.” Physical Chemistry Chemical Physics 19 (January): 5449–53. doi:10.1039/c7cp00157f.