2022
DOI: 10.21203/rs.3.rs-1667853/v1
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Directly Grown Universally Doped Ultrathin Nanocrystalline Carbon Overlayer Sustains Pragmatic Zinc Metal Anodes

Abstract: Rechargeable Zn-ion battery has emerged as a promising alternative to Li-ion battery owing to the high safety and environmental benignity. Nevertheless, dendritic formation and side reaction occurred at the anode side greatly handicap its practical advance. Here, we put forward an effective maneuver to sustain practical Zn anode by optimizing the anode/electrolyte interface, which deals with the direct growth of an ultrathin nitrogen and oxygen co-doped carbon (NOC) overlayer over Zn foil via a scalable plasma… Show more

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“…Along this line, Yang et al realized the direct and conformal growth of an ultrathin N/O codoped nanocrystalline carbon (NOC) overlayer on the surface of Zn metal via the PECVD technique (Figure 13a). 173 The corresponding HRTEM inspection discloses the apparent honeycomb lattice of graphene (Figure 13b), confirming the facile formation of graphitic nanodomains. To shed light on the protective mechanism of as-synthesized NOC overlayer with respect to the effective guidance of Zn metal deposition along the (002) plane, a series of structural characterizations and electrochemical measurements were accordingly carried out.…”
Section: Shielding Metal Anodementioning
confidence: 70%
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“…Along this line, Yang et al realized the direct and conformal growth of an ultrathin N/O codoped nanocrystalline carbon (NOC) overlayer on the surface of Zn metal via the PECVD technique (Figure 13a). 173 The corresponding HRTEM inspection discloses the apparent honeycomb lattice of graphene (Figure 13b), confirming the facile formation of graphitic nanodomains. To shed light on the protective mechanism of as-synthesized NOC overlayer with respect to the effective guidance of Zn metal deposition along the (002) plane, a series of structural characterizations and electrochemical measurements were accordingly carried out.…”
Section: Shielding Metal Anodementioning
confidence: 70%
“…Along this line, Yang et al realized the direct and conformal growth of an ultrathin N/O codoped nanocrystalline carbon (NOC) overlayer on the surface of Zn metal via the PECVD technique (Figure a) . The corresponding HRTEM inspection discloses the apparent honeycomb lattice of graphene (Figure b), confirming the facile formation of graphitic nanodomains.…”
Section: Versatility and Essentiality Of Direct-cvd-enabled Graphenementioning
confidence: 91%
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