Issue 106, 2014

Atom efficient thermal and photocuring combined treatments for the synthesis of novel eco-friendly grid-like zein nanofibres

Abstract

We report herein for the first time a novel crosslinking approach for the synthesis of grid-like zein nanofibres with SbQ (styrylpyridinequaternary) realized by a simple electrospinning process followed by thermal treatment and/or UV illumination. The properties of the electrospinning solution, such as viscosity, conductivity, and surface tension, were tested to evaluate the effect of SbQ addition (0 wt%, 10 wt%, 20 wt%) on the electrospinnability of glacial acetic acid solution of zein (25 wt%). The incorporation of SbQ resulted in bead-free nanofibre structures with increased diameter compared to pure zein nanofibres. The FT-IR results indicated that the zein-glacial acidic acid protein solution crosslinked, a phenomenon that can be characterized by two discrete, temporally distinct events: inter-molecular solution crosslinking and intra-fiber crosslinking from the SbQ throughout the nanofibrous mat following photocuring. The SbQ can form intra-fiber bridges, as confirmed by the SEM images; on a macroscopic (gross) scale, the crosslinking manifests itself by the formation of grid-like structures. The thermal properties of the zein nanofibres, however, were minimally improved after the incorporation of SbQ, whereas the cured composite nanofibres demonstrated significantly improved tensile and elongation properties.

Graphical abstract: Atom efficient thermal and photocuring combined treatments for the synthesis of novel eco-friendly grid-like zein nanofibres

Article information

Article type
Paper
Submitted
04 Oct 2014
Accepted
31 Oct 2014
First published
03 Nov 2014

RSC Adv., 2014,4, 61573-61579

Author version available

Atom efficient thermal and photocuring combined treatments for the synthesis of novel eco-friendly grid-like zein nanofibres

Q. Wang, A. G. Nandgaonkar, J. Cui, F. Huang, W. E. Krause, L. A. Lucia and Q. Wei, RSC Adv., 2014, 4, 61573 DOI: 10.1039/C4RA11792A

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