Emmett, R. K. Et Al. 2014. Can Faradaic Processes in Residual Iron Catalyst Help Overcome Intrinsic EDLC Limits of Carbon Nanotubes?. JOURNAL OF PHYSICAL CHEMISTRY C , vol.118, no.46 , 26498-26503.

Emmett, R. K., KARAKAYA, M., Podila, R., Arcila-Velez, M. R., Zhu, J., Rao, A. M., ... Roberts, M. E.(2014). Can Faradaic Processes in Residual Iron Catalyst Help Overcome Intrinsic EDLC Limits of Carbon Nanotubes?. JOURNAL OF PHYSICAL CHEMISTRY C , vol.118, no.46, 26498-26503.

Emmett, Robert Et Al. "Can Faradaic Processes in Residual Iron Catalyst Help Overcome Intrinsic EDLC Limits of Carbon Nanotubes?," JOURNAL OF PHYSICAL CHEMISTRY C , vol.118, no.46, 26498-26503, 2014

Emmett, Robert K. Et Al. "Can Faradaic Processes in Residual Iron Catalyst Help Overcome Intrinsic EDLC Limits of Carbon Nanotubes?." JOURNAL OF PHYSICAL CHEMISTRY C , vol.118, no.46, pp.26498-26503, 2014

Emmett, R. K. Et Al. (2014) . "Can Faradaic Processes in Residual Iron Catalyst Help Overcome Intrinsic EDLC Limits of Carbon Nanotubes?." JOURNAL OF PHYSICAL CHEMISTRY C , vol.118, no.46, pp.26498-26503.

@article{article, author={Robert K. Emmett Et Al. }, title={Can Faradaic Processes in Residual Iron Catalyst Help Overcome Intrinsic EDLC Limits of Carbon Nanotubes?}, journal={JOURNAL OF PHYSICAL CHEMISTRY C}, year=2014, pages={26498-26503} }