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High-yield production of non-layered 2D carbon complexes:Thickness manipulation and carbon nanotube branches for enhanced lithium storage properties

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摘要 Non-layered two-dimensional(2 D)carbon complexes manifest great potential in energy-related applications owing to their exotic electronic structures,large electrochemically active surface,and intriguing synergistic effects.However,reliable method for mass production and thickness manipulation of 2 D carbon complexes remains great challenges.Here,inspired by blowing chewing gum into bubbles,a“tailored gel expanding"strategy is proposed for high-yield synthesis of non-layered 2 D carbon complexes with tailored thickness from~12 nm to~1 lm,by controllable pyrolysis of metal-polymeric gel with adequate crosslinking degree.The key feature for thickness manipulation is introducing NH4 NO3 in sol-gel process,which tailors the expansion behavior of gel precursor during subsequent pyrolysis.Various of 2 D sheets with intimately coupled N,O-doped carbon(NOC)and Ni Co-based(Ni Co,(Ni Co)S_(2),(Ni Co)Se_(2),Ni Co_(2)O_(4),(Ni Co)(PO_(3))_(2))nanocrystals are obtained on a large scale and without any impurities.Moreover,these 2 D products are branched with in-situ grown CNTs on the surface,accelerating electrons transfer and preventing the nanosheets from stacking.As a demonstration,the 2 D(Ni Co)S_(2)/NOC with optimized thickness manifests excellent lithium storage properties in both half and full cells.This method paves a new path for massive and controlled production of non-layered 2 D materials with tailored thickness and robust structure stability for energy-related applications.
出处 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2021年第8期19-29,I0002,共12页 能源化学(英文版)
基金 supported by the National Natural Science Foundation of China(Grant Nos.51902102,51672059,21805171) the Taishan Scholars Talent Plan(No.ts201511080) the Natural Science Foundation of Hunan Province(Grant No.2020JJ5042) the Natural Science Foundation of Shandong Province(Grant No.ZR2018BB038) the Qiqihar Science and Technology Project(GYGG-201908)。
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