GEZER, B. Et Al. 2017. Reduced graphene oxide (rGO) as highly effective material for the ultrasound assisted boric acid extraction from ulexite ore. Chemical Engineering Research and Design , vol.117 , 542-548.

GEZER, B., SERT, H., ÖNAL OKYAY, T., Bozkurt, S., Başkaya, G., Şahin, B., ... Ulutürk, C.(2017). Reduced graphene oxide (rGO) as highly effective material for the ultrasound assisted boric acid extraction from ulexite ore. Chemical Engineering Research and Design , vol.117, 542-548.

GEZER, BAHDİŞEN Et Al. "Reduced graphene oxide (rGO) as highly effective material for the ultrasound assisted boric acid extraction from ulexite ore," Chemical Engineering Research and Design , vol.117, 542-548, 2017

GEZER, BAHDİŞEN Et Al. "Reduced graphene oxide (rGO) as highly effective material for the ultrasound assisted boric acid extraction from ulexite ore." Chemical Engineering Research and Design , vol.117, pp.542-548, 2017

GEZER, B. Et Al. (2017) . "Reduced graphene oxide (rGO) as highly effective material for the ultrasound assisted boric acid extraction from ulexite ore." Chemical Engineering Research and Design , vol.117, pp.542-548.

@article{article, author={BAHDİŞEN GEZER Et Al. }, title={Reduced graphene oxide (rGO) as highly effective material for the ultrasound assisted boric acid extraction from ulexite ore}, journal={Chemical Engineering Research and Design}, year=2017, pages={542-548} }