KARAMAN, O. 2022. Three-dimensional graphene network supported nickel-cobalt bimetallic alloy nanocatalyst for hydrogen production by hydrolysis of sodium borohydride and developing of an artificial neural network modeling to forecast hydrogen production rate. Chemical Engineering Research and Design , vol.181 , 321-330.

KARAMAN, O., (2022). Three-dimensional graphene network supported nickel-cobalt bimetallic alloy nanocatalyst for hydrogen production by hydrolysis of sodium borohydride and developing of an artificial neural network modeling to forecast hydrogen production rate. Chemical Engineering Research and Design , vol.181, 321-330.

KARAMAN, ONUR. "Three-dimensional graphene network supported nickel-cobalt bimetallic alloy nanocatalyst for hydrogen production by hydrolysis of sodium borohydride and developing of an artificial neural network modeling to forecast hydrogen production rate," Chemical Engineering Research and Design , vol.181, 321-330, 2022

KARAMAN, ONUR. "Three-dimensional graphene network supported nickel-cobalt bimetallic alloy nanocatalyst for hydrogen production by hydrolysis of sodium borohydride and developing of an artificial neural network modeling to forecast hydrogen production rate." Chemical Engineering Research and Design , vol.181, pp.321-330, 2022

KARAMAN, O. (2022) . "Three-dimensional graphene network supported nickel-cobalt bimetallic alloy nanocatalyst for hydrogen production by hydrolysis of sodium borohydride and developing of an artificial neural network modeling to forecast hydrogen production rate." Chemical Engineering Research and Design , vol.181, pp.321-330.

@article{article, author={ONUR KARAMAN}, title={Three-dimensional graphene network supported nickel-cobalt bimetallic alloy nanocatalyst for hydrogen production by hydrolysis of sodium borohydride and developing of an artificial neural network modeling to forecast hydrogen production rate}, journal={Chemical Engineering Research and Design}, year=2022, pages={321-330} }