AI Article Synopsis
- Hybrid structures using carbon nanotubes (CNTs) show significant potential in sensing and mechanical applications due to their unique properties when combined with other materials.
- A new continuous aerosol process has been developed to create hybrid sea urchin-like structures with CNTs around a metal oxide core, which enhances their functionality.
- The paper presents a new growth mechanism for these structures, highlights a method for monitoring CNT growth in real-time for better industrial production, and discusses advancements in CNT length and quality through substrate-based chemical vapor deposition.
Article Abstract
Hybrid structures consisting of functional materials enhanced by carbon nanotubes (CNTs) have potential for a variety of high impact applications, as shown by the impressive progress in sensing and mechanical applications enabled by CNT-enhanced materials. The hierarchical organisation of CNTs with other materials is key to the design of macroscale devices benefiting from the unique properties of individual CNTs, provided CNT density, morphology and binding with other materials are optimized. In this paper, we provide an analysis of a continuous aerosol process to create a hybrid hierarchical sea urchin structure with CNTs organized around a functional metal oxide core. We propose a new mechanism for the growth of these carbon nanotube sea urchins (CNTSU) and give new insight into their chemical composition. To corroborate the new mechanism, we examine the influence of CNT growth conditions on CNTSU morphology and demonstrate a new in-line characterisation technique to continuously monitor aerosol CNT growth during synthesis, which enables industrial-scale production optimization. Based upon the new formation mechanism we describe the first substrate-based chemical vapour deposition growth of CNTSUs which increases CNT length and improves G to D ratio, which also allows for the formation of CNTSU carpets with unique structures.
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| http://dx.doi.org/10.1039/c7nr09534a | DOI Listing |
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