Gurel, M. Et Al. 2023. Synthesis and electrical characterization of poly[(linoleic acid)-g-(styrene)-g-(ε-caprolactone)] graft copolymers as gate insulator for OFET devices. Polymer International , vol.72, no.8 , 727-737.

Gurel, M., Cavus, F. K., Demir, A., DOĞANCI, E., Alli, A., & Alli, S., (2023). Synthesis and electrical characterization of poly[(linoleic acid)-g-(styrene)-g-(ε-caprolactone)] graft copolymers as gate insulator for OFET devices. Polymer International , vol.72, no.8, 727-737.

Gurel, Murat Et Al. "Synthesis and electrical characterization of poly[(linoleic acid)-g-(styrene)-g-(ε-caprolactone)] graft copolymers as gate insulator for OFET devices," Polymer International , vol.72, no.8, 727-737, 2023

Gurel, Murat Et Al. "Synthesis and electrical characterization of poly[(linoleic acid)-g-(styrene)-g-(ε-caprolactone)] graft copolymers as gate insulator for OFET devices." Polymer International , vol.72, no.8, pp.727-737, 2023

Gurel, M. Et Al. (2023) . "Synthesis and electrical characterization of poly[(linoleic acid)-g-(styrene)-g-(ε-caprolactone)] graft copolymers as gate insulator for OFET devices." Polymer International , vol.72, no.8, pp.727-737.

@article{article, author={Murat Gurel Et Al. }, title={Synthesis and electrical characterization of poly[(linoleic acid)-g-(styrene)-g-(ε-caprolactone)] graft copolymers as gate insulator for OFET devices}, journal={Polymer International}, year=2023, pages={727-737} }