Molecular-Level Engineering of Adhesion in Carbon Nanomaterial Interfaces

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• 作者：Michael R. Roenbeck ; Al鈥檕na Furmanchuk ; Zhi An ; Jeffrey T. Paci ; Xiaoding Wei ; SonBinh T. Nguyen ; George C. Schatz ; Horacio D. Espinosa
• 刊名：Nano Letters
• 出版年：2015
• 出版时间：July 8, 2015
• 年：2015
• 卷：15
• 期：7
• 页码：4504-4516
• 全文大小：611K
• ISSN：1530-6992

文摘

Weak interfilament van der Waals interactions are potentially a significant roadblock in the development of carbon nanotube- (CNT-) and graphene-based nanocomposites. Chemical functionalization is envisioned as a means of introducing stronger intermolecular interactions at nanoscale interfaces, which in turn could enhance composite strength. This paper reports measurements of the adhesive energy of CNT鈥揼raphite interfaces functionalized with various coverages of arylpropionic acid. Peeling experiments conducted in situ in a scanning electron microscope show significantly larger adhesive energies compared to previously obtained measurements for unfunctionalized surfaces (Roenbeck et al. ACS Nano 2014, 8 (1), 124鈥?38). Surprisingly, however, the adhesive energies are significantly higher when both surfaces have intermediate coverages than when one surface is densely functionalized. Atomistic simulations reveal a novel functional group interdiffusion mechanism, which arises for intermediate coverages in the presence of water. This interdiffusion is not observed when one surface is densely functionalized, resulting in energy trends that correlate with those observed in experiments. This unique intermolecular interaction mechanism, revealed through the integrated experimental鈥揷omputational approach presented here, provides significant insights for use in the development of next-generation nanocomposites.