. Karataş Et Al. , "Rh (0) nanoparticles impregnated on two-dimensional transition metal carbides, MXene, as an effective nanocatalyst for ammonia-borane hydrolysis," International Journal of Energy Research , vol.46, no.8, pp.11411-11423, 2022
Karataş, . Et Al. 2022. Rh (0) nanoparticles impregnated on two-dimensional transition metal carbides, MXene, as an effective nanocatalyst for ammonia-borane hydrolysis. International Journal of Energy Research , vol.46, no.8 , 11411-11423.
Karataş, ., ÇETİN, T., Akkuş, İ. N., Akınay, Y., & Gülcan, M., (2022). Rh (0) nanoparticles impregnated on two-dimensional transition metal carbides, MXene, as an effective nanocatalyst for ammonia-borane hydrolysis. International Journal of Energy Research , vol.46, no.8, 11411-11423.
Karataş, Et Al. "Rh (0) nanoparticles impregnated on two-dimensional transition metal carbides, MXene, as an effective nanocatalyst for ammonia-borane hydrolysis," International Journal of Energy Research , vol.46, no.8, 11411-11423, 2022
Karataş, Yaşar Et Al. "Rh (0) nanoparticles impregnated on two-dimensional transition metal carbides, MXene, as an effective nanocatalyst for ammonia-borane hydrolysis." International Journal of Energy Research , vol.46, no.8, pp.11411-11423, 2022
Karataş, . Et Al. (2022) . "Rh (0) nanoparticles impregnated on two-dimensional transition metal carbides, MXene, as an effective nanocatalyst for ammonia-borane hydrolysis." International Journal of Energy Research , vol.46, no.8, pp.11411-11423.
@article{article, author={ Yaşar Karataş Et Al. }, title={Rh (0) nanoparticles impregnated on two-dimensional transition metal carbides, MXene, as an effective nanocatalyst for ammonia-borane hydrolysis}, journal={International Journal of Energy Research}, year=2022, pages={11411-11423} }