Qing Jiang
aml.jlu.edu.cn
0000-0003-0660-596X
527 papers found
Refreshing results…
Distinguishing the Structure of High-Pressure Hydrogen with Dielectric Constants
Fe7Se8 nanoparticles anchored on N-doped carbon nanofibers as high-rate anode for sodium-ion batteries
Machine Learning Scheme of Catalytic Activity of Alloys with Intrinsic Descriptors
Hollow N-doped carbon nanofibers bring superior potassium-storage performance
Triple atom catalyst with ultrahigh loading potential for nitrogen electrochemical reduction
NiS2 nanoparticles anchored on open carbon nanohelmets as an advanced anode for lithium-ion batteries
Enhancing the brightness and saturation of noniridescent structural colors by optimizing the grain size
Design of Effective Graphene with the TM/O Moiety for the Oxygen Electrode Reaction
Suppressed Shuttle via Inhibiting the Formation of Long‐Chain Lithium Polysulfides and Functional Separator for Greatly Improved Lithium–Organosulfur Batteries Performance
Dissociating stable nitrogen molecules under mild conditions by cyclic strain engineering
Dual-phase nanostructuring of layered metal oxides for high-performance aqueous rechargeable potassium ion microbatteries
Recent advances of nanoporous metal-based catalyst: synthesis, application and perspectives
Nanoporous Palladium–Silver Surface Alloys as Efficient and pH-Universal Catalysts for the Hydrogen Evolution Reaction
Fe 3 C‐Co Nanoparticles Encapsulated in a Hierarchical Structure of N‐Doped Carbon as a Multifunctional Electrocatalyst for ORR, OER, and HER
Favored decomposition paths of hydrogen sulfide at high pressure
Molecular Switch by Adsorbing the Au6 Cluster on Single-Walled Carbon Nanotubes: Role of Many-Body Effects of vdW Forces
Hierarchical nanoporous intermetallic compounds with self-grown transition-metal hydroxides as bifunctional catalysts for the alkaline hydrogen evolution reaction
Atomic (single, double, and triple atoms) catalysis: frontiers, opportunities, and challenges
Raising glass transition temperature of polymer nanofilms as a function of negative interface energy
Activated basal planes of WS2 by intrinsic defects as catalysts for the electrocatalytic nitrogen reduction reaction
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