Issue 1, 2021

Substrate adhesion evolves non-monotonically with processing time in millimeter-scale aligned carbon nanotube arrays

Abstract

The advantageous intrinsic and scale-dependent properties of aligned nanofibers (NFs) and their assembly into 3D architectures motivate their use as dry adhesives and shape-engineerable materials. While controlling NF–substrate adhesion is critical for scaled manufacturing and application-specific performance, current understanding of how this property evolves with processing conditions is limited. In this report, we introduce substrate adhesion predictive capabilities by using an exemplary array of NFs, aligned carbon nanotubes (CNTs), studied as a function of their processing. Substrate adhesion is found to scale non-monotonically with process time in a hydrocarbon environment and is investigated via the tensile pull-off of mm-scale CNT arrays from their growth substrate. CNT synthesis follows two regimes: Mode I (‘Growth’) and Mode II (‘Post-Growth’), separated by growth termination. Within 10 minutes of post-growth, experiments and modeling indicate an order-of-magnitude increase in CNT array–substrate adhesion strength (∼40 to 285 kPa) and effective elastic array modulus (∼6 to 47 MPa), and a two-orders-of-magnitude increase in the single CNT–substrate adhesion force (∼0.190 to 12.3 nN) and work of adhesion (∼0.07 to 1.5 J m−2), where the iron catalyst is found to remain on the substrate. Growth number decay in Mode I and carbon accumulation in Mode II contribute to the mechanical response, which may imply a change in the deformation mechanism. Predictive capabilities of the model are assessed for previously studied NF arrays, suggesting that the current framework can enable the future design and manufacture of high-value NF array applications.

Graphical abstract: Substrate adhesion evolves non-monotonically with processing time in millimeter-scale aligned carbon nanotube arrays

Supplementary files

Article information

Article type
Paper
Submitted
22 Jul 2020
Accepted
24 Nov 2020
First published
25 Nov 2020
This article is Open Access
Creative Commons BY license

Nanoscale, 2021,13, 261-271

Substrate adhesion evolves non-monotonically with processing time in millimeter-scale aligned carbon nanotube arrays

A. L. Kaiser, D. L. Lidston, S. C. Peterson, L. H. Acauan, S. A. Steiner, R. Guzman de Villoria, A. R. Vanderhout, I. Y. Stein and B. L. Wardle, Nanoscale, 2021, 13, 261 DOI: 10.1039/D0NR05469K

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