Arc plasma-deposited Co single-atom catalysts supported on an aligned carbon nanofiber for hydrogen peroxide electrosynthesis and an electro-Fenton process

Authors
Hwang, Chang-KyuKim, SooyeonYoon, Ki RoLe, Thao ThiHoang, Chinh V.Choi, Jae WonZhang, WenjunPaek, Sae YaneLee, Chung HyeonLee, Ji HyunChae, Keun HwaJeong, SoheeLee, Seung YongJu, Byeong-KwonKim, Sang HoonHan, Sang SooKim, Jong Min
Issue Date
2024-11
Publisher
Wiley
Citation
Carbon Energy, v.6, no.11
Abstract
Atomically dispersed single-atom catalysts (SACs) on carbon supports show great promise for H2O2 electrosynthesis, but conventional wet chemistry methods using particulate carbon blacks in powder form have limited their potential as two-electron (2e(-)) oxygen reduction reaction (ORR) catalysts. Here, we demonstrate high-performance Co SACs supported on a free-standing aligned carbon nanofiber (CNF) using electrospinning and arc plasma deposition (APD). Based on the surface oxidation treatment of aligned CNF and precise control of the deposition amount in a dry-based APD process, we successfully form densely populated Co SACs on aligned CNF. Through experimental analyses and density functional theory calculations, we reveal that Co SAC has a Co-N-2-O-2 moiety with one epoxy group, leading to excellent 2e(-) ORR activity. Furthermore, the aligned CNF significantly improves mass transfer in flow cells compared to randomly oriented CNF, showing an overpotential reduction of 30 mV and a 1.3-fold improvement (84.5%) in Faradaic efficiency, and finally achieves an outstanding production rate of 15.75 mol g(cat)(-1) h(-1) at 300 mA cm(-2). The high-performance Co SAC supported on well-aligned CNF is also applied in an electro-Fenton process, demonstrating rapid removal of methylene blue and bisphenol F due to its exceptional 2e(-) ORR activity.
Keywords
OXYGEN REDUCTION; METAL NANOPARTICLES; H2O2 PRODUCTION; DESIGN; PEROXYMONOSULFATE; ACTIVATION; EFFICIENCY; OXIDATION; arc plasma deposition; electro-Fenton; flow reactor; hydrogen peroxide production; oxygen reduction reaction; single-atom catalysts
URI
https://pubs.kist.re.kr/handle/201004/150253
DOI
10.1002/cey2.582
Appears in Collections:
KIST Article > 2024
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