Rapid synthesis of onion-like nitrogen-doped carbon nanospheres with microwave and study of its tribological behavior

In this study, a simple and rapid method for the preparation of Nitrogen-doped carbon nanospheres (N–CNOs) was proposed. N–CNOs were successfully prepared by microwave heating the mixture of naphthalene, melamine, and carbon fibers for 2 min, which showed a nearly spherical morphology with a multi-l...

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Bibliographic Details
Published in:Carbon (New York) 2025-02, Vol.233, p.119840, Article 119840
Main Authors: Shang, Fengqin, Sun, Yang, Yan, Zihan, Yao, Jiayu, Yang, Ruirui, Hu, Yingjia, Chen, Bingheng, Shen, Hangyan
Format: Article
Language:English
Subjects:
Lattice mismatch
Microwave synthesis
N-CNOs
Onion-like structure
Tribological properties
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Summary:In this study, a simple and rapid method for the preparation of Nitrogen-doped carbon nanospheres (N–CNOs) was proposed. N–CNOs were successfully prepared by microwave heating the mixture of naphthalene, melamine, and carbon fibers for 2 min, which showed a nearly spherical morphology with a multi-layer onion-like structure, and the average diameter was 197 nm. Compared with CNOs, the coefficient of friction (COF) of N–CNOs decreased from 0.36 to 0.31 and the wear rate decreased from 1.03 × 10−5 to 0.83 × 10−5 mm³/(N·m), which decreased by 14 % and 19 %, respectively. When the N–CNOs concentration increased from 4.0 wt% to 16.0 wt%, the COF and wear rate of N–CNOs reached the minimum (0.22 and 0.53 × 10−5 mm3/(N·m)), respectively. The excellent tribological properties of N–CNOs were attributed to the increase of interlayer spacing (0.07 nm) and the atomic scale lattice mismatch, both of which weakened interlayer interactions, thereby improving lubrication performance and reducing friction. This study not only proposed a new preparation method for N–CNOs, but also revealed the lubrication mechanism at the atomic scale, providing a technical support for their application in the field of lubrication. Nitrogen-doped carbon nanospheres (N–CNOS) were rapidly synthesized via the microwave method within 2 min, which showed an onion-like structure with a diameter of 50–200 nm. As a water-based lubricant additive, N–CNOS exhibited outstanding lubrication performance. The average COF for water, graphite, CNOS, and N–CNOS were 0.64, 0.42, 0.36, and 0.31, respectively. The addition of N–CNOS to water resulted in a significant reduction of the average COF by 52 % and a significant reduction of the wear rate by 67 %. Compared with CNOS, the average COF decreased by 14 %, and the wear rate decreased by 19 %, respectively. This excellent lubricity could be attributed to the lattice mismatch and increased layer spacing induced by N-atoms doping, leading to interlayer mismatch in N–CNOS, which enhanced the nonmetric state of the interface and further reduced the frictional resistance. [Display omitted]
ISSN:0008-6223
DOI:10.1016/j.carbon.2024.119840