Wolff, D.; Weber, S.; Graumann, T.; Zebrowski, S.; Mainusch, N.; Dilger, N.; Cerdas, F.; Zellmer, S.
An Environmental and Technical Evaluation of Vacuum-Based Thin Film Technologies: Lithium Niobate Coated Cathode Active Material for Use in All-Solid-State Battery Cells. Energies 2023, 16, 1278.
https://doi.org/10.3390/en16031278
AMA Style
Wolff D, Weber S, Graumann T, Zebrowski S, Mainusch N, Dilger N, Cerdas F, Zellmer S.
An Environmental and Technical Evaluation of Vacuum-Based Thin Film Technologies: Lithium Niobate Coated Cathode Active Material for Use in All-Solid-State Battery Cells. Energies. 2023; 16(3):1278.
https://doi.org/10.3390/en16031278
Chicago/Turabian Style
Wolff, Deidre, Svenja Weber, Tobias Graumann, Stefan Zebrowski, Nils Mainusch, Nikolas Dilger, Felipe Cerdas, and Sabrina Zellmer.
2023. "An Environmental and Technical Evaluation of Vacuum-Based Thin Film Technologies: Lithium Niobate Coated Cathode Active Material for Use in All-Solid-State Battery Cells" Energies 16, no. 3: 1278.
https://doi.org/10.3390/en16031278
APA Style
Wolff, D., Weber, S., Graumann, T., Zebrowski, S., Mainusch, N., Dilger, N., Cerdas, F., & Zellmer, S.
(2023). An Environmental and Technical Evaluation of Vacuum-Based Thin Film Technologies: Lithium Niobate Coated Cathode Active Material for Use in All-Solid-State Battery Cells. Energies, 16(3), 1278.
https://doi.org/10.3390/en16031278
