Arie, A. A. Et Al. 2018. Activated porous carbons derived from the Indonesian snake fruit peel as anode materials for sodium ion batteries. MATERIALS CHEMISTRY AND PHYSICS , vol.217 , 254-261.

Arie, A. A., Kristianto, H., Demir, E., & Cakan, R. D., (2018). Activated porous carbons derived from the Indonesian snake fruit peel as anode materials for sodium ion batteries. MATERIALS CHEMISTRY AND PHYSICS , vol.217, 254-261.

Arie, Arenst Et Al. "Activated porous carbons derived from the Indonesian snake fruit peel as anode materials for sodium ion batteries," MATERIALS CHEMISTRY AND PHYSICS , vol.217, 254-261, 2018

Arie, Arenst A. Et Al. "Activated porous carbons derived from the Indonesian snake fruit peel as anode materials for sodium ion batteries." MATERIALS CHEMISTRY AND PHYSICS , vol.217, pp.254-261, 2018

Arie, A. A. Et Al. (2018) . "Activated porous carbons derived from the Indonesian snake fruit peel as anode materials for sodium ion batteries." MATERIALS CHEMISTRY AND PHYSICS , vol.217, pp.254-261.

@article{article, author={Arenst Andreas Arie Et Al. }, title={Activated porous carbons derived from the Indonesian snake fruit peel as anode materials for sodium ion batteries}, journal={MATERIALS CHEMISTRY AND PHYSICS}, year=2018, pages={254-261} }