Cite
Quantum efficiency improvement depending on the oxygen doping density, temperature, and layer thicknesses of an intermediate band solar cell based on ZnTe:O: Numerical analysis.
MLA
Khelifi, Seyf allah, et al. “Quantum Efficiency Improvement Depending on the Oxygen Doping Density, Temperature, and Layer Thicknesses of an Intermediate Band Solar Cell Based on ZnTe:O: Numerical Analysis.” Optik - International Journal for Light & Electron Optics, vol. 224, Dec. 2020, p. N.PAG. EBSCOhost, https://doi.org/10.1016/j.ijleo.2020.165432.
APA
Khelifi, S. allah, Blal, M., Boudaoud, L., Dabou, R., Ziane, A., Neçaibia, A., Bouraiou, A., Rouabhia, A., Mostefaoui, M., Slimani, A., & Tidjar, B. (2020). Quantum efficiency improvement depending on the oxygen doping density, temperature, and layer thicknesses of an intermediate band solar cell based on ZnTe:O: Numerical analysis. Optik - International Journal for Light & Electron Optics, 224, N.PAG. https://doi.org/10.1016/j.ijleo.2020.165432
Chicago
Khelifi, Seyf allah, Mohamed Blal, Lahouaria Boudaoud, Rachid Dabou, Abderrezzaq Ziane, Ammar Neçaibia, Ahmed Bouraiou, et al. 2020. “Quantum Efficiency Improvement Depending on the Oxygen Doping Density, Temperature, and Layer Thicknesses of an Intermediate Band Solar Cell Based on ZnTe:O: Numerical Analysis.” Optik - International Journal for Light & Electron Optics 224 (December): N.PAG. doi:10.1016/j.ijleo.2020.165432.