Libei Yuan
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View article: Lattice Engineering and Spatial Confinement towards A Multi-metallic Prussian Blue Analogues Well-matched against MXene Anode for Wide Voltage Window and Ultralong-lifespan Protic Hybrid Pseudocapacitors
Lattice Engineering and Spatial Confinement towards A Multi-metallic Prussian Blue Analogues Well-matched against MXene Anode for Wide Voltage Window and Ultralong-lifespan Protic Hybrid Pseudocapacitors Open
View article: An Ultrasmall Structure-Optimized Vanadium Oxides Integrated into Nitrogen-Doped Bead-Chain-Like Hollow Carbon Nanofibers for Advanced Flexible Cathode of Zinc Ion Batteries
An Ultrasmall Structure-Optimized Vanadium Oxides Integrated into Nitrogen-Doped Bead-Chain-Like Hollow Carbon Nanofibers for Advanced Flexible Cathode of Zinc Ion Batteries Open
View article: Surface chemistry regulation of conductive two-dimensional nanosheets with highly pseudocapacitive covalent groups for a high-performance flexible asymmetric microsupercapacitor
Surface chemistry regulation of conductive two-dimensional nanosheets with highly pseudocapacitive covalent groups for a high-performance flexible asymmetric microsupercapacitor Open
A high-performance proton-type solid-state asymmetric microsupercapacitor is realized by employing all-pseudocapacitive two-dimensional materials with highly active covalent groups as the cathode and anode materials.
View article: Tailoring hierarchical MnO<sub>2</sub> nanostructures on self-supporting cathodes for high-mass-loading zinc-ion batteries
Tailoring hierarchical MnO<sub>2</sub> nanostructures on self-supporting cathodes for high-mass-loading zinc-ion batteries Open
Tailoring 2D/3D hierarchical MnO 2 nanostructures on carbon cloth via a molecular self-assembly strategy to realize a high-mass-loading self-supporting electrode for advanced Zn 2+ /H + storage.
View article: Hybrid working mechanism enables highly reversible Zn electrodes
Hybrid working mechanism enables highly reversible Zn electrodes Open
View article: Understanding H<sub>2</sub> Evolution Electrochemistry to Minimize Solvated Water Impact on Zinc‐Anode Performance
Understanding H<sub>2</sub> Evolution Electrochemistry to Minimize Solvated Water Impact on Zinc‐Anode Performance Open
H 2 evolution is the reason for poor reversibility and limited cycle stability with Zn‐metal anodes, and impedes practical application in aqueous zinc‐ion batteries (AZIBs). Here, using a combined gas chromatography experiment and computat…
View article: Triple‐Function Electrolyte Regulation toward Advanced Aqueous Zn‐Ion Batteries
Triple‐Function Electrolyte Regulation toward Advanced Aqueous Zn‐Ion Batteries Open
The poor Zn reversibility has been criticized for limiting applications of aqueous Zn‐ion batteries (ZIBs); however, its behavior in aqueous media is not fully uncovered yet. Here, this knowledge gap is addressed, indicating that Zn electr…
View article: Bio-templated fabrication of three-dimensional network activated carbons derived from mycelium pellets for supercapacitor applications
Bio-templated fabrication of three-dimensional network activated carbons derived from mycelium pellets for supercapacitor applications Open