K. Bidai Et Al. , "Carbon substitution enhanced electronic and optical properties of MgSiP2 chalcopyrite through TB-mBJ approximation," COMPUTATIONAL CONDENSED MATTER , vol.24, 2020
Bidai, K. Et Al. 2020. Carbon substitution enhanced electronic and optical properties of MgSiP2 chalcopyrite through TB-mBJ approximation. COMPUTATIONAL CONDENSED MATTER , vol.24 .
Bidai, K., Tabeti, A., Mohammed, D. S., Seddik, T., Batouche, M., Ozdemir, M., ... Bakhti, B.(2020). Carbon substitution enhanced electronic and optical properties of MgSiP2 chalcopyrite through TB-mBJ approximation. COMPUTATIONAL CONDENSED MATTER , vol.24.
Bidai, K. Et Al. "Carbon substitution enhanced electronic and optical properties of MgSiP2 chalcopyrite through TB-mBJ approximation," COMPUTATIONAL CONDENSED MATTER , vol.24, 2020
Bidai, K. Et Al. "Carbon substitution enhanced electronic and optical properties of MgSiP2 chalcopyrite through TB-mBJ approximation." COMPUTATIONAL CONDENSED MATTER , vol.24, 2020
Bidai, K. Et Al. (2020) . "Carbon substitution enhanced electronic and optical properties of MgSiP2 chalcopyrite through TB-mBJ approximation." COMPUTATIONAL CONDENSED MATTER , vol.24.
@article{article, author={K. Bidai Et Al. }, title={Carbon substitution enhanced electronic and optical properties of MgSiP2 chalcopyrite through TB-mBJ approximation}, journal={COMPUTATIONAL CONDENSED MATTER}, year=2020}