Ouellette, D. Et Al. 2018. Assessment of different bio-inspired flow fields for direct methanol fuel cells through 3D modeling and experimental studies. International Journal Of Hydrogen Energy , vol.43, no.2 , 1152-1170.

Ouellette, D., Ozden, A., Ercelik, M., Çolpan, C. Ö., Genceli, H., Li, X., ... Hamdullahpur, F.(2018). Assessment of different bio-inspired flow fields for direct methanol fuel cells through 3D modeling and experimental studies. International Journal Of Hydrogen Energy , vol.43, no.2, 1152-1170.

Ouellette, David Et Al. "Assessment of different bio-inspired flow fields for direct methanol fuel cells through 3D modeling and experimental studies," International Journal Of Hydrogen Energy , vol.43, no.2, 1152-1170, 2018

Ouellette, David Et Al. "Assessment of different bio-inspired flow fields for direct methanol fuel cells through 3D modeling and experimental studies." International Journal Of Hydrogen Energy , vol.43, no.2, pp.1152-1170, 2018

Ouellette, D. Et Al. (2018) . "Assessment of different bio-inspired flow fields for direct methanol fuel cells through 3D modeling and experimental studies." International Journal Of Hydrogen Energy , vol.43, no.2, pp.1152-1170.

@article{article, author={David Ouellette Et Al. }, title={Assessment of different bio-inspired flow fields for direct methanol fuel cells through 3D modeling and experimental studies}, journal={International Journal Of Hydrogen Energy}, year=2018, pages={1152-1170} }