Preparation and performances of conductive, wear-resistant, and anti-corrosion coatings based on low content monodisperse SWCNTs

IF 4.3 3区 材料科学 Q2 MATERIALS SCIENCE, COATINGS & FILMS
Zhiqi Wang , Tiannan Man , Zhisheng Nong, Chunyang Jia, Keming Ma, Baichen Wang, Yue Xing, Shaowei Lu
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Abstract

Single-walled carbon nanotubes (SWCNTs) are considered an ideal candidate material for multifunctional coatings because of their excellent electrical, thermal and mechanical properties. However, achieving uniform dispersion of SWCNTs while maintaining their structure and performance remains a significant challenge. The monodisperse SWCNTs (m-SWCNTs) can be obtained using a non-covalent PVP dispersant under the graded homogenization method. PVP acted as steric hindrance due to the π-π conjugate, thereby hindering the agglomeration and preventing the damage of SWCNTs. We incorporate low amounts of m-SWCNTs into fluorocarbon (FC) coatings to fabricate m-SWCNTs/FC composite coatings. We also investigate the effect of m-SWCNTs content on the electrical conductivity, corrosion resistance and wear resistance of the composite coating. Our results indicate that when the content of m-SWCNTs reaches at 0.25 wt%, the electrical resistivity of the m-SWCNTs/FC composite coating is 1.67 × 10−2 Ωm, significantly decreased by 9 orders of magnitude compared to FC coating. The conductive network would be formed by the high aspect ratio and non-damaged of m-SWCNTs to improve the conductivity. Additionally, the wear rate containing 0.15 wt% m-SWCNTs decreased by 50.1 % due to the improved strength and heat conduction to inhibit the adhesive wear. Furthermore, in comparison to bare steel, the corrosion current density of 0.15 wt% m-SWCNTs/FC composite coating is reduced by two orders of magnitude due to zigzag the corrosive path. Our studies suggest that the m-SWCNTs/FC composite coatings have a broad prospect in preparing large-scale, high-performance, and low-cost functional coatings.

Abstract Image

基于低含量单分散 SWCNT 的导电、耐磨和防腐蚀涂层的制备及其性能
单壁碳纳米管(SWCNT)具有优异的电学、热学和机械性能,因此被认为是多功能涂层的理想候选材料。然而,在保持结构和性能的同时实现 SWCNTs 的均匀分散仍然是一项重大挑战。在分级均质方法下,使用非共价 PVP 分散剂可获得单分散 SWCNTs(m-SWCNTs)。由于π-π共轭,PVP 起到了立体阻碍的作用,从而阻碍了 SWCNT 的团聚,防止了 SWCNT 的损坏。我们在碳氟化合物(FC)涂层中加入了少量的间SWCNT,从而制备出了间SWCNT/FC复合涂层。我们还研究了间SWCNTs含量对复合涂层导电性、耐腐蚀性和耐磨性的影响。结果表明,当 m-SWCNTs 的含量达到 0.25 wt% 时,m-SWCNTs/FC 复合涂层的电阻率为 1.67 × 10-2 Ωm,与 FC 涂层相比显著降低了 9 个数量级。高纵横比和未损坏的 m-SWCNT 将形成导电网络,从而提高导电率。此外,含有 0.15 wt% m-SWCNTs 的磨损率降低了 50.1%,原因是其强度和热传导性能得到改善,从而抑制了粘着磨损。此外,与裸钢相比,0.15 wt% m-SWCNTs/FC 复合涂层的腐蚀电流密度降低了两个数量级,这是因为腐蚀路径呈 "之 "字形。我们的研究表明,m-SWCNTs/FC 复合涂层在制备大规模、高性能、低成本的功能涂层方面具有广阔的前景。
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来源期刊
Diamond and Related Materials
Diamond and Related Materials 工程技术-材料科学:综合
CiteScore
6.00
自引率
14.60%
发文量
702
审稿时长
2.1 months
期刊介绍: DRM is a leading international journal that publishes new fundamental and applied research on all forms of diamond, the integration of diamond with other advanced materials and development of technologies exploiting diamond. The synthesis, characterization and processing of single crystal diamond, polycrystalline films, nanodiamond powders and heterostructures with other advanced materials are encouraged topics for technical and review articles. In addition to diamond, the journal publishes manuscripts on the synthesis, characterization and application of other related materials including diamond-like carbons, carbon nanotubes, graphene, and boron and carbon nitrides. Articles are sought on the chemical functionalization of diamond and related materials as well as their use in electrochemistry, energy storage and conversion, chemical and biological sensing, imaging, thermal management, photonic and quantum applications, electron emission and electronic devices. The International Conference on Diamond and Carbon Materials has evolved into the largest and most well attended forum in the field of diamond, providing a forum to showcase the latest results in the science and technology of diamond and other carbon materials such as carbon nanotubes, graphene, and diamond-like carbon. Run annually in association with Diamond and Related Materials the conference provides junior and established researchers the opportunity to exchange the latest results ranging from fundamental physical and chemical concepts to applied research focusing on the next generation carbon-based devices.
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