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Dapeng Liu
Researcher at Beihang University
Publications - 66
Citations - 4834
Dapeng Liu is an academic researcher from Beihang University. The author has contributed to research in topics: Catalysis & Graphene. The author has an hindex of 32, co-authored 61 publications receiving 3864 citations. Previous affiliations of Dapeng Liu include Chinese Academy of Sciences.
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Journal ArticleDOI
Coupling Sub-Nanometric Copper Clusters with Quasi-Amorphous Cobalt Sulfide Yields Efficient and Robust Electrocatalysts for Water Splitting Reaction
Yipu Liu,Qiuju Li,Rui Si,Guo-Dong Li,Wang Li,Dapeng Liu,Dejun Wang,Dejun Wang,Lei Sun,Yu Zhang,Xiaoxin Zou +10 more
TL;DR: Superefficient water-splitting materials comprising sub-nanometric copper clusters and quasi-amorphous cobalt sulfide supported on copper foam give a catalytic output of overall water splitting comparable with the Pt/C-IrO2 -coupled electrolyzer.
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Graphene oxide covalently grafted upconversion nanoparticles for combined NIR mediated imaging and photothermal/photodynamic cancer therapy
TL;DR: Benefiting from the unique multifunctional hybrid nanostructure, UCNPs-NGO/ZnPc nanocomposites developed herein are promising as an integrated theranostic probe for potential UCL image-guided combinatorial PDT/PTT of cancer.
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Pt@CeO2 Multicore@Shell Self-Assembled Nanospheres: Clean Synthesis, Structure Optimization, and Catalytic Applications
TL;DR: The as-obtained Pt@CeO2 multicore@shell nanospheres can be further supported on reduced graphene oxide (RGO) to form heterogeneous nanocatalyst, which has been successfully applied in the chemical reduction reaction of nitrophenol by ammonia borane (NH3BH3, dubbed as AB) instead of hazardous H2 or NaBH4.
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Synthesis of 3D Hierarchical Fe3O4/Graphene Composites with High Lithium Storage Capacity and for Controlled Drug Delivery
TL;DR: In this paper, a 3D hierarchical Fe3O4/graphene nanosheet (GNS) composites were synthesized using a simple in situ hydrothermal method.
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Prevention of dendrite growth and volume expansion to give high-performance aprotic bimetallic Li-Na alloy–O 2 batteries
Jin-Ling Ma,Fan-Lu Meng,Yue Yu,Yue Yu,Dapeng Liu,Jun-Min Yan,Yu Zhang,Xin-Bo Zhang,Qing Jiang +8 more
TL;DR: Electrochemical investigations show that stripping and plating of Li and Na and the robust and flexible passivation film formed in situ suppress dendrite and buffer alloy anode volume expansion and thus prevent cracking, avoiding electrolyte consumption and ensuring high electron transport efficiency and continued electrochemical reactions.