Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide
We report the first use of spark plasma sintering (SPS) as a single-step process to achieve superhydrophobic reduced graphene oxide (rGO). It was found that SPS was capable of converting smooth and electrically insulating graphene oxide (GO) sheets into highly electrically conductive rGO with minimu...
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sg-ntu-dr.10356-832292020-06-01T10:21:30Z Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide Li, Zhong Tang, Xiu-Zhi Zhu, Wenyu Thompson, Brianna C. Huang, Mingyue Yang, Jinglei Hu, Xiao Khor, Khiam Aik School of Civil and Environmental Engineering School of Materials Science & Engineering School of Mechanical and Aerospace Engineering Antibacterial nanomaterials Graphene oxide We report the first use of spark plasma sintering (SPS) as a single-step process to achieve superhydrophobic reduced graphene oxide (rGO). It was found that SPS was capable of converting smooth and electrically insulating graphene oxide (GO) sheets into highly electrically conductive rGO with minimum residual oxygen and hierarchical roughness which could be well retained after prolonged ultrasonication. At a temperature of 500 °C, which is lower than the conventional critical temperature for GO exfoliation, GO was successfully exfoliated, reduced, and hierarchically roughened. rGO fabricated by only 1 min of treatment at 1050 °C was superhydrophobic with a surface roughness (Ra) 10 times as large as that of GO as well as an extraordinarily high C:O ratio of 83.03 (atom %) and water contact angle of 153°. This demonstrates that SPS is a superior GO reduction technique, which enabled superhydrophobic rGO to be quickly and effectively achieved in one single step. Moreover, the superhydrophobic rGO fabricated by SPS showed an impressive bacterial antifouling and inactivation effect against Escherichia coli in both aqueous solution and the solid state. It is envisioned that the superhydrophobic rGO obtained in this study can be potentially used for a wide range of industrial and biomedical applications, such as the fabrication of self-cleaning and antibacterial surfaces. Accepted version 2017-05-25T09:10:04Z 2019-12-06T15:17:55Z 2017-05-25T09:10:04Z 2019-12-06T15:17:55Z 2016 Journal Article Li, Z., Tang, X.-Z., Zhu, W., Thompson, B. C., Huang, M., Yang, J., et al. (2016). A Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide. ACS Applied Materials & Interfaces, 8(17), 10985-10994. 1944-8244 https://hdl.handle.net/10356/83229 http://hdl.handle.net/10220/42487 10.1021/acsami.6b01227 en ACS Applied Materials & Interfaces © 2016 American Chemical Society (ACS). This is the author created version of a work that has been peer reviewed and accepted for publication by ACS Applied Materials & Interfaces, American Chemical Society (ACS). It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1021/acsami.6b01227]. 41 p. application/pdf |
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Antibacterial nanomaterials Graphene oxide |
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Antibacterial nanomaterials Graphene oxide Li, Zhong Tang, Xiu-Zhi Zhu, Wenyu Thompson, Brianna C. Huang, Mingyue Yang, Jinglei Hu, Xiao Khor, Khiam Aik Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide |
| description |
We report the first use of spark plasma sintering (SPS) as a single-step process to achieve superhydrophobic reduced graphene oxide (rGO). It was found that SPS was capable of converting smooth and electrically insulating graphene oxide (GO) sheets into highly electrically conductive rGO with minimum residual oxygen and hierarchical roughness which could be well retained after prolonged ultrasonication. At a temperature of 500 °C, which is lower than the conventional critical temperature for GO exfoliation, GO was successfully exfoliated, reduced, and hierarchically roughened. rGO fabricated by only 1 min of treatment at 1050 °C was superhydrophobic with a surface roughness (Ra) 10 times as large as that of GO as well as an extraordinarily high C:O ratio of 83.03 (atom %) and water contact angle of 153°. This demonstrates that SPS is a superior GO reduction technique, which enabled superhydrophobic rGO to be quickly and effectively achieved in one single step. Moreover, the superhydrophobic rGO fabricated by SPS showed an impressive bacterial antifouling and inactivation effect against Escherichia coli in both aqueous solution and the solid state. It is envisioned that the superhydrophobic rGO obtained in this study can be potentially used for a wide range of industrial and biomedical applications, such as the fabrication of self-cleaning and antibacterial surfaces. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Li, Zhong Tang, Xiu-Zhi Zhu, Wenyu Thompson, Brianna C. Huang, Mingyue Yang, Jinglei Hu, Xiao Khor, Khiam Aik |
| format |
Article |
| author |
Li, Zhong Tang, Xiu-Zhi Zhu, Wenyu Thompson, Brianna C. Huang, Mingyue Yang, Jinglei Hu, Xiao Khor, Khiam Aik |
| author_sort |
Li, Zhong |
| title |
Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide |
| title_short |
Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide |
| title_full |
Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide |
| title_fullStr |
Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide |
| title_full_unstemmed |
Single-Step Process toward Achieving Superhydrophobic Reduced Graphene Oxide |
| title_sort |
single-step process toward achieving superhydrophobic reduced graphene oxide |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/83229 http://hdl.handle.net/10220/42487 |
| _version_ |
1681056863127339008 |