B. Sen Et Al. , "Hydrogen liberation from the dehydrocoupling of dimethylamine–borane at room temperature by using novel and highly monodispersed RuPtNi nanocatalysts decorated with graphene oxide," International Journal of Hydrogen Energy , vol.42, no.36, pp.23299-23306, 2017
Sen, B. Et Al. 2017. Hydrogen liberation from the dehydrocoupling of dimethylamine–borane at room temperature by using novel and highly monodispersed RuPtNi nanocatalysts decorated with graphene oxide. International Journal of Hydrogen Energy , vol.42, no.36 , 23299-23306.
Sen, B., Kuzu, S., Demir, E., Onal Okyay, T., & Sen, F., (2017). Hydrogen liberation from the dehydrocoupling of dimethylamine–borane at room temperature by using novel and highly monodispersed RuPtNi nanocatalysts decorated with graphene oxide. International Journal of Hydrogen Energy , vol.42, no.36, 23299-23306.
Sen, Betül Et Al. "Hydrogen liberation from the dehydrocoupling of dimethylamine–borane at room temperature by using novel and highly monodispersed RuPtNi nanocatalysts decorated with graphene oxide," International Journal of Hydrogen Energy , vol.42, no.36, 23299-23306, 2017
Sen, Betül Et Al. "Hydrogen liberation from the dehydrocoupling of dimethylamine–borane at room temperature by using novel and highly monodispersed RuPtNi nanocatalysts decorated with graphene oxide." International Journal of Hydrogen Energy , vol.42, no.36, pp.23299-23306, 2017
Sen, B. Et Al. (2017) . "Hydrogen liberation from the dehydrocoupling of dimethylamine–borane at room temperature by using novel and highly monodispersed RuPtNi nanocatalysts decorated with graphene oxide." International Journal of Hydrogen Energy , vol.42, no.36, pp.23299-23306.
@article{article, author={Betül Sen Et Al. }, title={Hydrogen liberation from the dehydrocoupling of dimethylamine–borane at room temperature by using novel and highly monodispersed RuPtNi nanocatalysts decorated with graphene oxide}, journal={International Journal of Hydrogen Energy}, year=2017, pages={23299-23306} }