Improved chemical and mechanical stability of peptoid nanosheets by photo-crosslinking the hydrophobic core

Dillon Flood; Caroline Proulx; Ellen J. Robertson; Alessia Battigelli; Shuo Wang; Adam M. Schwartzberg; Ronald N. Zuckermann

Journal Article

Improved chemical and mechanical stability of peptoid nanosheets by photo-crosslinking the hydrophobic core

Flood D
Proulx C
Robertson E
et al.

Chemical Communications (2016) 52(26) 4753-4756

DOI: 10.1039/c6cc00588h

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Abstract

Peptoid nanosheets can be broadly functionalized for a variety of applications. However, they are susceptible to degradation when exposed to chemical or mechanical stress. To improve their strength, photolabile monomers were introduced in order to crosslink the nanosheet interior. Photo-crosslinking produced a more robust material that can survive sonication, lyophilization, and other biochemical manipulations.

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Flood, D., Proulx, C., Robertson, E. J., Battigelli, A., Wang, S., Schwartzberg, A. M., & Zuckermann, R. N. (2016). Improved chemical and mechanical stability of peptoid nanosheets by photo-crosslinking the hydrophobic core. Chemical Communications, 52(26), 4753–4756. https://doi.org/10.1039/c6cc00588h

Improved chemical and mechanical stability of peptoid nanosheets by photo-crosslinking the hydrophobic core

Abstract

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