Cite
Toward the Improvement of Silicon-Based Composite Electrodes via an In-Situ Si@C-Graphene Composite Synthesis for Li-Ion Battery Applications.
MLA
Mery, Adrien, et al. “Toward the Improvement of Silicon-Based Composite Electrodes via an In-Situ Si@C-Graphene Composite Synthesis for Li-Ion Battery Applications.” Materials (1996-1944), vol. 16, no. 6, Mar. 2023, p. 2451. EBSCOhost, https://doi.org/10.3390/ma16062451.
APA
Mery, A., Chenavier, Y., Marcucci, C., Benayad, A., Alper, J. P., Dubois, L., Haon, C., Boime, N. H., Sadki, S., & Duclairoir, F. (2023). Toward the Improvement of Silicon-Based Composite Electrodes via an In-Situ Si@C-Graphene Composite Synthesis for Li-Ion Battery Applications. Materials (1996-1944), 16(6), 2451. https://doi.org/10.3390/ma16062451
Chicago
Mery, Adrien, Yves Chenavier, Coralie Marcucci, Anass Benayad, John P. Alper, Lionel Dubois, Cédric Haon, Nathalie Herlin Boime, Saïd Sadki, and Florence Duclairoir. 2023. “Toward the Improvement of Silicon-Based Composite Electrodes via an In-Situ Si@C-Graphene Composite Synthesis for Li-Ion Battery Applications.” Materials (1996-1944) 16 (6): 2451. doi:10.3390/ma16062451.