Lim, J., Sinha, S., Hire, A.C., Kim, J.S., Dee, P.M., Kumar, R.S., Popov, D., Hemley, R.J., Hennig, R.G., Hirschfeld, P.J., G. R. Stewart, G.R., and Hamlin, J.J. Niobium substitution suppresses the superconducting critical temperature of pressurized MoB2. Retrieved from https://par.nsf.gov/biblio/10447044. Physical review B Condensed matter and materials physics .

Lim, J., Sinha, S., Hire, A.C., Kim, J.S., Dee, P.M., Kumar, R.S., Popov, D., Hemley, R.J., Hennig, R.G., Hirschfeld, P.J., G. R. Stewart, G.R., & Hamlin, J.J. Niobium substitution suppresses the superconducting critical temperature of pressurized MoB2. Physical review B Condensed matter and materials physics, (). Retrieved from https://par.nsf.gov/biblio/10447044.

Lim, J., Sinha, S., Hire, A.C., Kim, J.S., Dee, P.M., Kumar, R.S., Popov, D., Hemley, R.J., Hennig, R.G., Hirschfeld, P.J., G. R. Stewart, G.R., and Hamlin, J.J. "Niobium substitution suppresses the superconducting critical temperature of pressurized MoB2". Physical review B Condensed matter and materials physics (). Country unknown/Code not available. https://par.nsf.gov/biblio/10447044.

@article{osti_10447044,
place = {Country unknown/Code not available}, title = {Niobium substitution suppresses the superconducting critical temperature of pressurized MoB2}, url = {https://par.nsf.gov/biblio/10447044}, abstractNote = {}, journal = {Physical review B Condensed matter and materials physics}, author = {Lim, J. and Sinha, S. and Hire, A.C. and Kim, J.S. and Dee, P.M. and Kumar, R.S. and Popov, D. and Hemley, R.J. and Hennig, R.G. and Hirschfeld, P.J. and G. R. Stewart, G.R. and Hamlin, J.J.}, }