Structural properties of graphene oxide fibers: from graphene oxide dispersion until continuous graphene oxide fiber |
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Authors: | Nuray Uçar Mervin Ölmez Ay?en Önen Nilgün Karatepe Yavuz Osman Eksik |
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Affiliation: | 1. Faculty of Textile Technologies and Design, Department of Textile Engineering, Istanbul Technical University, Istanbul, Turkey;2. Polymer Science and Technology Program, Istanbul Technical University, Istanbul, Turkey;3. Department of Chemistry, Istanbul Technical University, Istanbul, Turkey;4. Institute of Energy, Istanbul Technical University, Istanbul, Turkey;5. Faculty of Chemical and Metallurgical Engineering, Department of Chemical Engineering, Istanbul Technical University, Istanbul, Turkey |
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Abstract: | Continuous graphene oxide fiber focused for the last seven years have a very large application area such as electronic textiles, photovoltaics, batteries, fuel cells, sensors, filters. This study reports the effect of processing parameters such as time, temperature of the exfoliation together with dispersion preparation methods of graphene oxide on the properties of continuous graphene oxide fibers produced by coagulation bath. Relationship between changing parameters and structural properties of graphene oxide fiber, fiber morphology, roughness, crystalline structure have been discussed. It has been shown that crystalline structures and responses to changing parameters are different when it is an exfoliated state, dispersion state, and fiber state. For example, crystalline sizes and number of layers of GO fiber were higher than those of GO dispersion, while the crystallinity degrees and d-spaces at the GO fiber were always less than that of GO dispersion. Higher exfoliation time leads to an increase of Tex count of fiber, while longer ultrasonic time resulted in lower value compared to both shorter ultrasound time and mechanical homogenization. Shorter ultrasonic treatment and shorter exfoliation time leads to higher electrical conductivity compared to mechanical homogenization. Shorter ultrasonic treatment results in vaguely tendency of an increase of breaking strength. |
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Keywords: | Graphene oxide fiber crystal structure mechanical properties electrical properties atomic force microscopy |
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