In this work, carbon nanofibers (CNF) synthesized by electrospinning are loaded with a combination of nickel and cobalt, both in the metallic and oxide forms (NiCo-loaded CNF), and studied as bifunctional air electrodes for metal-air batteries. The performance of the NiCo-loaded CNF sample is compared with a similarly prepared CoOCo/CNF catalyst both for oxygen reduction and evolution reactions. The combination of nickel and cobalt, both in metallic and oxide form, leads to a bifunctional catalyst with a halfwave potential for the ORR of 874mV vs. RHE and a reversibility (DEOER-ORR) of 764 mV. The stability of the catalyst is assessed by means of a 24 h chronopotentiometric test at 80 mA cm2 and chargedischarge cycles (30 min each) at ±20 mAcm2. NiCo-loaded CNF shows a remarkable stability, maintaining a constant potential during both tests.
NiCo-loaded carbon nanofibers obtained by electrospinning: Bifunctional behavior as air electrodes
Modica E;Di Blasi A;Di Blasi O;Busacca C;Ferraro M;Antonucci V;Baglio V
2018
Abstract
In this work, carbon nanofibers (CNF) synthesized by electrospinning are loaded with a combination of nickel and cobalt, both in the metallic and oxide forms (NiCo-loaded CNF), and studied as bifunctional air electrodes for metal-air batteries. The performance of the NiCo-loaded CNF sample is compared with a similarly prepared CoOCo/CNF catalyst both for oxygen reduction and evolution reactions. The combination of nickel and cobalt, both in metallic and oxide form, leads to a bifunctional catalyst with a halfwave potential for the ORR of 874mV vs. RHE and a reversibility (DEOER-ORR) of 764 mV. The stability of the catalyst is assessed by means of a 24 h chronopotentiometric test at 80 mA cm2 and chargedischarge cycles (30 min each) at ±20 mAcm2. NiCo-loaded CNF shows a remarkable stability, maintaining a constant potential during both tests.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
