20 results on '"Huang, Zechuan"'
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2. A smart conflict resolution model using multi-layer knowledge graph for conceptual design
3. Pre-lithiation optimized voltage ranges and MnO2/rGO negative electrodes with oxygen vacancies for enhanced performance of lithium-ion capacitors
4. Diatomic Iron with a Pseudo-Phthalocyanine Coordination Environment for Highly Efficient Oxygen Reduction over 150,000 Cycles.
5. Nanoscale operation of Ni-Rich cathode surface by polycrystalline solid electrolytes Li3.2Zr0.4Si0.6O3.6 coating
6. A field-based knowledge graph assisted conceptual design for structure configuration of engineering equipment
7. Review of Carbon Support Coordination Environments for Single Metal Atom Electrocatalysts (SACS)
8. Review of Emerging Atomically Precise Composite Site‐Based Electrocatalysts
9. Harnessing Multi-domain Knowledge for User-centric Product Conceptual Design
10. Cation Vacancy Clusters in Ti 3 C 2 TxMXene Induce Ultra‐Strong Interaction with Noble Metal Clusters for Efficient Electrocatalytic Hydrogen Evolution
11. Review of Carbon Support Coordination Environments for Single Metal Atom Electrocatalysts (SACS).
12. A comprehensive overview of the electrochemical mechanisms in emerging alkali metal–carbon dioxide batteries
13. Nanosecond laser lithography enables concave-convex zinc metal battery anodes with ultrahigh areal capacity
14. Cation Vacancy Clusters in Ti3C2Tx MXene Induce Ultra‐Strong Interaction with Noble Metal Clusters for Efficient Electrocatalytic Hydrogen Evolution.
15. Boosting Energy Efficiency and Stability of Li–CO 2 Batteries via Synergy between Ru Atom Clusters and Single‐Atom Ru–N 4 sites in the Electrocatalyst Cathode
16. Toward Theoretical Capacity and Superhigh Power Density for Potassium–Selenium Batteries via Facilitating Reversible Potassiation Kinetics
17. P-block tin single atom catalyst for improved electrochemistry in a lithium–sulfur battery: a theoretical and experimental study
18. Boosting Energy Efficiency and Stability of Li–CO2 Batteries via Synergy between Ru Atom Clusters and Single‐Atom Ru–N4 sites in the Electrocatalyst Cathode.
19. Mn3O4 nanoflakes/rGO composites with moderate pore size and (O=)C-O-Mn bond for enhanced supercapacitor performance
20. Mesh‐Like Carbon Nanosheets with High‐Level Nitrogen Doping for High‐Energy Dual‐Carbon Lithium‐Ion Capacitors
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