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Boosting oxygen electrode kinetics by addition of cost-effective transition metals (Ni, Fe, Cu) to platinum on graphene nanoplatelets
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D. Mladenović Et Al. , "Boosting oxygen electrode kinetics by addition of cost-effective transition metals (Ni, Fe, Cu) to platinum on graphene nanoplatelets," JOURNAL OF ALLOYS AND COMPOUNDS , vol.905, pp.164156-164167, 2022

Mladenović, D. Et Al. 2022. Boosting oxygen electrode kinetics by addition of cost-effective transition metals (Ni, Fe, Cu) to platinum on graphene nanoplatelets. JOURNAL OF ALLOYS AND COMPOUNDS , vol.905 , 164156-164167.

Mladenović, D., Daş, E., Santos, D. M., Bayrakçeken Yurtcan, A., Miljanić, Š., & Šljukić, B., (2022). Boosting oxygen electrode kinetics by addition of cost-effective transition metals (Ni, Fe, Cu) to platinum on graphene nanoplatelets. JOURNAL OF ALLOYS AND COMPOUNDS , vol.905, 164156-164167.

Mladenović, Dušan Et Al. "Boosting oxygen electrode kinetics by addition of cost-effective transition metals (Ni, Fe, Cu) to platinum on graphene nanoplatelets," JOURNAL OF ALLOYS AND COMPOUNDS , vol.905, 164156-164167, 2022

Mladenović, Dušan Et Al. "Boosting oxygen electrode kinetics by addition of cost-effective transition metals (Ni, Fe, Cu) to platinum on graphene nanoplatelets." JOURNAL OF ALLOYS AND COMPOUNDS , vol.905, pp.164156-164167, 2022

Mladenović, D. Et Al. (2022) . "Boosting oxygen electrode kinetics by addition of cost-effective transition metals (Ni, Fe, Cu) to platinum on graphene nanoplatelets." JOURNAL OF ALLOYS AND COMPOUNDS , vol.905, pp.164156-164167.

@article{article, author={Dušan Mladenović Et Al. }, title={Boosting oxygen electrode kinetics by addition of cost-effective transition metals (Ni, Fe, Cu) to platinum on graphene nanoplatelets}, journal={JOURNAL OF ALLOYS AND COMPOUNDS}, year=2022, pages={164156-164167} }