Golden carbon nanotube membrane for continuous flow catalysis
In this work, a high-performance catalytic membrane, composed of ultrasmall gold nanoclusters (AuNCs) and high aspect-ratio carbon nanotubes (CNTs), was designed for the continuous-flow catalytic reactions. In this hybrid catalytic membrane, the Au core of the NCs serves as high-performance catalyst...
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American Chemical Society
2017
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my.iium.irep.693142019-06-12T02:45:19Z http://irep.iium.edu.my/69314/ Golden carbon nanotube membrane for continuous flow catalysis Liu, Yanbiao Zheng, Yuying Du, Bowen Nasaruddin, Ricca Rahman Chen, Tiankai Xie, Jianping QD Chemistry TA170 Environmental engineering TP155 Chemical engineering In this work, a high-performance catalytic membrane, composed of ultrasmall gold nanoclusters (AuNCs) and high aspect-ratio carbon nanotubes (CNTs), was designed for the continuous-flow catalytic reactions. In this hybrid catalytic membrane, the Au core of the NCs serves as high-performance catalyst, and the ligand of the NCs plays two key roles: (1) as a well-defined surfactant assembly to effectively dissolve CNTs in aqueous solution and (2) as an efficient protecting ligand for Au core to avoid agglomeration. Due to the above-mentioned features, a homogeneous 3D self-support catalytic membrane can be readily fabricated by vacuum filtration of the hybrid AuNCs/CNTs. The catalytic activity of the as-designed catalytic membrane was evaluated using 4-nitrophenol hydrogenation as a model catalytic reaction. The data suggest that the continuous flow catalytic reactor could achieve complete conversion of the substrate (i.e., 4-nitrophenol) within a single flow through the membrane with a hydraulic residence time (τ) of 3.0 s. The catalytic membrane also showed enhanced catalytic kinetics as compared to the conventional batch reactor due to the convectively enhanced mass transfer. In addition, three important parameters, including the Au loading amount, substrate concentration, and flow rate, were identified as key factors that could affect the performance of the catalytic membrane. American Chemical Society 2017 Article PeerReviewed application/pdf en http://irep.iium.edu.my/69314/1/69314_Golden%20Carbon%20Nanotube%20Membrane.pdf application/pdf en http://irep.iium.edu.my/69314/2/69314_Golden%20Carbon%20Nanotube%20Membrane_SCOPUS.pdf application/pdf en http://irep.iium.edu.my/69314/3/69314_Golden%20Carbon%20Nanotube%20Membrane_WOS.pdf Liu, Yanbiao and Zheng, Yuying and Du, Bowen and Nasaruddin, Ricca Rahman and Chen, Tiankai and Xie, Jianping (2017) Golden carbon nanotube membrane for continuous flow catalysis. Industrial & Engineering Chemistry Research, 56 (11). pp. 2999-3007. ISSN 0888-5885 https://pubs.acs.org/doi/abs/10.1021/acs.iecr.7b00357 10.1021/acs.iecr.7b00357 |
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QD Chemistry TA170 Environmental engineering TP155 Chemical engineering Liu, Yanbiao Zheng, Yuying Du, Bowen Nasaruddin, Ricca Rahman Chen, Tiankai Xie, Jianping Golden carbon nanotube membrane for continuous flow catalysis |
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In this work, a high-performance catalytic membrane, composed of ultrasmall gold nanoclusters (AuNCs) and high aspect-ratio carbon nanotubes (CNTs), was designed for the continuous-flow catalytic reactions. In this hybrid catalytic membrane, the Au core of the NCs serves as high-performance catalyst, and the ligand of the NCs plays two key roles: (1) as a well-defined surfactant assembly to effectively dissolve CNTs in aqueous solution and (2) as an efficient protecting ligand for Au core to avoid agglomeration. Due to the above-mentioned features, a homogeneous 3D self-support catalytic membrane can be readily fabricated by vacuum filtration of the hybrid AuNCs/CNTs. The catalytic activity of the as-designed catalytic membrane was evaluated using 4-nitrophenol hydrogenation as a model catalytic reaction. The data suggest that the continuous flow catalytic reactor could achieve complete conversion of the substrate (i.e., 4-nitrophenol) within a single flow through the membrane with a hydraulic residence time (τ) of 3.0 s. The catalytic membrane also showed enhanced catalytic kinetics as compared to the conventional batch reactor due to the convectively enhanced mass transfer. In addition, three important parameters, including the Au loading amount, substrate concentration, and flow rate, were identified as key factors that could affect the performance of the catalytic membrane. |
| format |
Article |
| author |
Liu, Yanbiao Zheng, Yuying Du, Bowen Nasaruddin, Ricca Rahman Chen, Tiankai Xie, Jianping |
| author_facet |
Liu, Yanbiao Zheng, Yuying Du, Bowen Nasaruddin, Ricca Rahman Chen, Tiankai Xie, Jianping |
| author_sort |
Liu, Yanbiao |
| title |
Golden carbon nanotube membrane for continuous flow catalysis |
| title_short |
Golden carbon nanotube membrane for continuous flow catalysis |
| title_full |
Golden carbon nanotube membrane for continuous flow catalysis |
| title_fullStr |
Golden carbon nanotube membrane for continuous flow catalysis |
| title_full_unstemmed |
Golden carbon nanotube membrane for continuous flow catalysis |
| title_sort |
golden carbon nanotube membrane for continuous flow catalysis |
| publisher |
American Chemical Society |
| publishDate |
2017 |
| url |
http://irep.iium.edu.my/69314/1/69314_Golden%20Carbon%20Nanotube%20Membrane.pdf http://irep.iium.edu.my/69314/2/69314_Golden%20Carbon%20Nanotube%20Membrane_SCOPUS.pdf http://irep.iium.edu.my/69314/3/69314_Golden%20Carbon%20Nanotube%20Membrane_WOS.pdf http://irep.iium.edu.my/69314/ https://pubs.acs.org/doi/abs/10.1021/acs.iecr.7b00357 |
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