S. Yesilot Et Al. , "Phosphazene based star-branched polymeric cathode materials via inverse vulcanization of sulfur for lithium-sulfur batteries," POLYMER CHEMISTRY , vol.11, no.25, pp.4124-4132, 2020
Yesilot, S. Et Al. 2020. Phosphazene based star-branched polymeric cathode materials via inverse vulcanization of sulfur for lithium-sulfur batteries. POLYMER CHEMISTRY , vol.11, no.25 , 4124-4132.
Yesilot, S., Kucukkoylu, S., Demir, E., & Demir-Cakan, R., (2020). Phosphazene based star-branched polymeric cathode materials via inverse vulcanization of sulfur for lithium-sulfur batteries. POLYMER CHEMISTRY , vol.11, no.25, 4124-4132.
Yesilot, Serkan Et Al. "Phosphazene based star-branched polymeric cathode materials via inverse vulcanization of sulfur for lithium-sulfur batteries," POLYMER CHEMISTRY , vol.11, no.25, 4124-4132, 2020
Yesilot, Serkan Et Al. "Phosphazene based star-branched polymeric cathode materials via inverse vulcanization of sulfur for lithium-sulfur batteries." POLYMER CHEMISTRY , vol.11, no.25, pp.4124-4132, 2020
Yesilot, S. Et Al. (2020) . "Phosphazene based star-branched polymeric cathode materials via inverse vulcanization of sulfur for lithium-sulfur batteries." POLYMER CHEMISTRY , vol.11, no.25, pp.4124-4132.
@article{article, author={Serkan Yesilot Et Al. }, title={Phosphazene based star-branched polymeric cathode materials via inverse vulcanization of sulfur for lithium-sulfur batteries}, journal={POLYMER CHEMISTRY}, year=2020, pages={4124-4132} }