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Authors Sun, C. ; Zhang, J. ; Gao, S.-L. ; Zhang, N. ; Zhang, Y. J. ; Zhuang, J. ; Liu, M. ; Zhang, X. H. ; Ren, W. ; Wu, H. ; Ye, Z. G.
Title Achieving higher strength and sensitivity toward UV light in multifunctional composites by controlling the thickness of nanolayer on the surface of glass fiber
Date 13.08.2018
Number 55628
Abstract The interphase between fiber and matrix plays an essential role in the performance of composites. Therefore, the ability to design or modify the interphase is a key technology needed to manufacture stronger and smarter composite. Recently, depositing nanomaterials onto the surface of the fiber has become a promising approach to optimize the interphase and composites. But, the modified composites have not reached the highest strength yet, because the determining parameters, such as thickness of the nanolayer, are hardly controlled by the mentioned methods in reported works. Here, we deposit conformal ZnO nanolayer with various thicknesses onto the surfaces of glass fibers via the atomic layer deposition (ALD) method and a tremendous enhancement of interfacial shear strength of composites is achieved. Importantly, a critical thickness of ZnO nanolayer is obtained for the first time, giving rise to a maximal relative enhancement in the interfacial strength, which is more than 200% of the control fiber. In addition, the single modified fiber exhibits a potential application as a flexible, transparent, in situ UV detector in composites. And, we find the UV-sensitivity also shows a strong correlation with the thickness of ZnO. To reveal the dependence of UV-sensitivity on thickness, a depletion thickness is estimated by a proposed model which is an essential guide to design the detectors with higher sensitivity. Consequently, such precise tailoring of the interphase offers an advanced way to improve and to flexibly control various macroscopic properties of multifunctional composites of the next generation.
Publisher ACS Applied Materials & Interfaces
Wikidata
Citation ACS Applied Materials & Interfaces 10 (2018) 23399-23405
DOI https://doi.org/10.1021/acsami.8b04872
Tags atomic layer deposition interfacial strength multifunctional composites uv detector zno nanolayer

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