Abstract
Conventional adhesives show a decrease in the adhesion force with increasing temperature due to thermally induced viscoelastic thinning and/or structural decomposition. Here, we report the counter-intuitive behaviour of carbon nanotube (CNT) dry adhesives that show a temperature-enhanced adhesion strength by over six-fold up to 143 N cm−2 (4 mm × 4 mm), among the strongest pure CNT dry adhesives, over a temperature range from −196 to 1,000 °C. This unusual adhesion behaviour leads to temperature-enhanced electrical and thermal transports, enabling the CNT dry adhesive for efficient electrical and thermal management when being used as a conductive double-sided sticky tape. With its intrinsic thermal stability, our CNT adhesive sustains many temperature transition cycles over a wide operation temperature range. We discover that a ‘nano-interlock' adhesion mechanism is responsible for the adhesion behaviour, which could be applied to the development of various dry CNT adhesives with novel features.
Highlights
Conventional adhesives show a decrease in the adhesion force with increasing temperature due to thermally induced viscoelastic thinning and/or structural decomposition
A strong shear adhesion force of B100 N cm À 2—ten times that of the gecko foot adhesive—was previously reported for vertically aligned multi-walled carbon nanotube (CNT) (VA-MWNTs) against a glass substrate[4], where the van der Waals force was demonstrated to be responsible for the strong adhesion
A hierarchical CNT/polymer fibrillar structure was proposed in a subsequent study to promote the rough surface adaptability[5], most reported carbon nanotube dry adhesives were tested against smooth surfaces to enhance the van der Waals (vdW) interaction[4,6,7,8]
Summary
Conventional adhesives show a decrease in the adhesion force with increasing temperature due to thermally induced viscoelastic thinning and/or structural decomposition. We achieve thermally enhanced CNT adhesives for high-temperature applications by rationally designing vertically aligned double-walled CNT (VA-DWNT) strands with bundled top nodes induced by plasma treatment.
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