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Almutairi E, Alzaid M, Taufique AM, et al. Rigidity of lamellar nanosheets. Soft Matter. 2017;13(13):2492-2498doi: 10.1039/c7sm00047b.
Almutairi, E., Alzaid, M., Taufique, A. M., Semler, M. R., & Hobbie, E. K. (2017). Rigidity of lamellar nanosheets. Soft matter, 13(13), 2492-2498. https://doi.org/10.1039/c7sm00047b
Almutairi, Eid, et al. "Rigidity of lamellar nanosheets." Soft matter vol. 13,13 (2017): 2492-2498. doi: https://doi.org/10.1039/c7sm00047b
Almutairi E, Alzaid M, Taufique AM, Semler MR, Hobbie EK. Rigidity of lamellar nanosheets. Soft Matter. 2017 Mar 29;13(13):2492-2498. doi: 10.1039/c7sm00047b. PMID: 28303267.
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Soft Matter. 2017 Mar 29;13(13):2492-2498. doi: 10.1039/c7sm00047b.

Rigidity of lamellar nanosheets.

Soft matter

Eid Almutairi, Meshal Alzaid, Abu Md Niamul Taufique, Matthew R Semler, Erik K Hobbie

Affiliations

  1. North Dakota State University, Fargo, North Dakota 58108, USA. [email protected].

PMID: 28303267 DOI: 10.1039/c7sm00047b

Abstract

Lamellar nanosheets of contrasting materials are ubiquitous in functional coatings and electronic devices. They also represent a unique paradigm for polymer nanocomposites. Here, we use fluid-assembled lamellar nanosheets - alternating layers of polymer and single-wall carbon nanotubes (SWCNTs) - to gain insight into the flexural mechanics of such hybrid films. Specifically, we measure the modulus and yield strain as a function of both layer thickness and the total number of layers. Overall, we find that the multi-layered films exhibit the greatest synergistic effects near a layer thickness of 20 nm or less, which we relate to the characteristic width of the SWCNT-polymer interface. For all layer thicknesses, we find that the nanosheets have realized the bulk limit by six layers. Our results have potentially profound implications for controlling the rigidity and durability of polymer nanocomposites, thin hybrid films and flexible heterojunctions.

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