Daobo Li
China Three Gorges University
8 Papers
3 Citations
Daobo Li is an academic researcher from China Three Gorges University. The author has contributed to research in topics: Chemistry & Lithium (medication). The author has an hindex of 1, co-authored 4 publications.
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Papers
Boosting high-rate lithium storage in Li3VO4 via honeycomb structure design and electrochemical reconstruction
TL;DR: In this paper, the authors demonstrate for the first time that Li3VO4's moderate lifespan under high-rate hinders its practical application in LIBs, and demonstrate that its intrinsic safety and capacity merits endow it with great promising inLIBs.
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Controllable synthesis of Li3VO4/N doped C nanofibers toward high-capacity and high-rate Li-ion storage
TL;DR: In this article, morphology-controlled synthesis of LVO/N doped C nanofibers (LVO/NC NFs) is successfully realized via a concise electrospinning approach using low-cost raw materials.
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Cysteine-Mediated Extracellular Electron Transfer of Lysinibacillus varians GY32
Guannan Kong,Yonggang Yang,Yeshen Luo,Feifei Liu,Da Song,Guoping Sun,Daobo Li,Jun Guo,Meijun Dong,Mei-Jin Xu +9 more
TL;DR: In this article , the authors investigated the EET pathway of a Gram-positive filamentous bacterium Lysinibacillus varians GY32, which has a wide electron donor spectrum (including lactate, acetate, formate and some amino acids) in electrode respiration.
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Scalable synthesis of Li3VO4/nitrogen doped carbon fibers toward self-adaptive Li-ion storage
TL;DR: Li3VO4/nitrogen doped carbon fibers (LVO/NCFs) were prepared via a low cost and scalable biomass-derived approach as discussed by the authors, and they exhibited discharge specific capacity of 774 mAh g-1 at the current of 0.2
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Controlled synthesis of Li3VO4/C nanofibers as anode for Li-ion batteries
TL;DR: Li3VO4/C nanofibers with tunable morphology and microstructure are prepared via an aqueous-based electrospinning approach in this article, where the performance of the LVO/C NFs-1 is distinctly improved compared with that of the LVO/CNFs-2, owing to improved reaction kinetics and continuously high capacitive charge storage.
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