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2025[1]
Microwave-enabled rapid, continuous, and substrate-free synthesis of few-layer graphdiyne nanosheets for enhanced potassium metal battery performance,
New Carbon Materials,
2025,
40,
3,
-
2025[2]
Robust Single-Walled Carbon NanotubeCoated Aramid Fibers with Tunable Conductivities for Broadband Radar Absorption in Honeycomb Structures,
ACS Nano,
2025,
-
2025[3]
Epitaxial Electrodeposition of Zinc on Different Single Crystal Copper Substrates for High Performance Aqueous Batteries,
Nano Letters,
2025,
-
2024[4]
Structural−Functional Integrated Graphene- Skinned Aramid Fibers for Electromagnetic Interference Shielding,
ACS Nano,
2024,
-
2024[5]
Capacity recovery by transient voltage pulse in silicon-anode batteries,
Science,
2024,
386,
322-327
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2024[6]
Controlled Growth of Single-Walled Carbon Nanotube Films by Iron-assisted Floating Solid Catalyst Chemical Vapor Deposition,
Small,
2024,
2402839
-
2024[7]
Direct Growth of Vertical Graphene on FiberElectrodes and Its Application in Alternating Current Line-Filtering Capacitors,
ACS Nano,
2024,
18,
24154−24161
-
2024[8]
Cu/CuxO/Graphdiyne Tandem Catalyst for Efficient Electrocatalytic Nitrate Reduction to Ammonia.,
Advanced Materials,
2024,
2405660
-
2024[9]
High-performance Na-S batteries enabled by a chemical and spatial dual-confinement strategy,
Matter,
2024,
7,
1920-1924
-
2024[10]
Graphdiyne Enabled Nitrogen Vacancy Formation in Copper Nitride for Efficient Ammonia Synthesis,
J. Am. Chem. Soc.,
2024,
146,
21,
14898-14904
