An Amiable Design of Cobalt Single Atoms as the Active Sites for Oxygen Evolution Reaction in Desalinated Seawater.
Sada VenkateswarluMuhammad UmerYounghu SonSaravanan GovindarajuGayathri ChellasamyAtanu PandaJuseong ParkSohaib UmerJeonghyeon KimSang-Il ChoiKyusik YunMinyoung YoonGeunsik LeeMyung Jong KimPublished in: Small (Weinheim an der Bergstrasse, Germany) (2023)
Green fuel from water splitting is hardcore for future generations, and the limited source of fresh water (<1%) is a bottleneck. Seawater cannot be used directly as a feedstock in current electrolyzer techniques. Until now single atom catalysts were reported by many synthetic strategies using notorious chemicals and harsh conditions. A cobalt single-atom (CoSA) intruding cobalt oxide ultrasmall nanoparticle (Co 3 O 4 USNP)-intercalated porous carbon (PC) (CoSA-Co 3 O 4 @PC) electrocatalyst was synthesized from the waste orange peel as a single feedstock (solvent/template). The extended X-ray absorption fine structure spectroscopy (EXAFS) and theoretical fitting reveal a clear picture of the coordination environment of the CoSA sites (CoSA-Co 3 O 4 and CoSA-N 4 in PC). To impede the direct seawater corrosion and chlorine evolution the seawater has been desalinated (Dseawater) with minimal cost and the obtained PC is used as an adsorbent in this process. CoSA-Co 3 O 4 @PC shows high oxygen evolution reaction (OER) activity in transitional metal impurity-free (TMIF) 1 M KOH and alkaline Dseawater. CoSA-Co 3 O 4 @PC exhibits mass activity that is 15 times higher than the commercial RuO 2 . Theoretical interpretations suggest that the optimized CoSA sites in Co 3 O 4 USNPs reduce the energy barrier for alkaline water dissociation and simultaneously trigger an excellent OER followed by an adsorbate evolution mechanism (AEM).
Keyphrases
- molecularly imprinted
- metal organic framework
- high resolution
- molecular dynamics
- reduced graphene oxide
- air pollution
- gene expression
- magnetic resonance imaging
- highly efficient
- risk assessment
- magnetic resonance
- anaerobic digestion
- heavy metals
- solid phase extraction
- mass spectrometry
- contrast enhanced
- electron microscopy