A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor
Reduced graphene oxide (RGO) has proved to be a promising candidate in high‐performance gas sensing in ambient conditions. However, trace detection of different kinds of gases with simultaneously high sensitivity and selectivity is challenging. Here, a chemiresistor‐type sensor based on 3D sulfonate...
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2018
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sg-ntu-dr.10356-872442023-03-04T17:15:18Z A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor Wu, Jin Tao, Kai Guo, Yuanyuan Li, Zhong Wang, Xiaotian Luo, Zhongzhen Feng, Shuanglong Du, Chunlei Chen, Di Miao, Jianmin Norford, Leslie K. School of Materials Science & Engineering School of Mechanical and Aerospace Engineering Chemical Detection Chemically-modified Graphene Reduced graphene oxide (RGO) has proved to be a promising candidate in high‐performance gas sensing in ambient conditions. However, trace detection of different kinds of gases with simultaneously high sensitivity and selectivity is challenging. Here, a chemiresistor‐type sensor based on 3D sulfonated RGO hydrogel (S‐RGOH) is reported, which can detect a variety of important gases with high sensitivity, boosted selectivity, fast response, and good reversibility. The NaHSO3 functionalized RGOH displays remarkable 118.6 and 58.9 times higher responses to NO2 and NH3, respectively, compared with its unmodified RGOH counterpart. In addition, the S‐RGOH sensor is highly responsive to volatile organic compounds. More importantly, the characteristic patterns on the linearly fitted response–temperature curves are employed to distinguish various gases for the first time. The temperature of the sensor is elevated rapidly by an imbedded microheater with little power consumption. The 3D S‐RGOH is characterized and the sensing mechanisms are proposed. This work gains new insights into boosting the sensitivity of detecting various gases by combining chemical modification and 3D structural engineering of RGO, and improving the selectivity of gas sensing by employing temperature dependent response characteristics of RGO for different gases. NRF (Natl Research Foundation, S’pore) Published version 2018-07-30T03:24:03Z 2019-12-06T16:38:02Z 2018-07-30T03:24:03Z 2019-12-06T16:38:02Z 2017 Journal Article Wu, J., Tao, K., Guo, Y., Li, Z., Wang, X., Luo, Z., et al. (2017). A 3D Chemically Modified Graphene Hydrogel for Fast, Highly Sensitive, and Selective Gas Sensor. Advanced Science, 4(3), 1600319-. https://hdl.handle.net/10356/87244 http://hdl.handle.net/10220/45349 10.1002/advs.201600319 en Advanced Science © 2016 The Authors. Published by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. 9 p. application/pdf |
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Chemical Detection Chemically-modified Graphene |
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Chemical Detection Chemically-modified Graphene Wu, Jin Tao, Kai Guo, Yuanyuan Li, Zhong Wang, Xiaotian Luo, Zhongzhen Feng, Shuanglong Du, Chunlei Chen, Di Miao, Jianmin Norford, Leslie K. A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor |
| description |
Reduced graphene oxide (RGO) has proved to be a promising candidate in high‐performance gas sensing in ambient conditions. However, trace detection of different kinds of gases with simultaneously high sensitivity and selectivity is challenging. Here, a chemiresistor‐type sensor based on 3D sulfonated RGO hydrogel (S‐RGOH) is reported, which can detect a variety of important gases with high sensitivity, boosted selectivity, fast response, and good reversibility. The NaHSO3 functionalized RGOH displays remarkable 118.6 and 58.9 times higher responses to NO2 and NH3, respectively, compared with its unmodified RGOH counterpart. In addition, the S‐RGOH sensor is highly responsive to volatile organic compounds. More importantly, the characteristic patterns on the linearly fitted response–temperature curves are employed to distinguish various gases for the first time. The temperature of the sensor is elevated rapidly by an imbedded microheater with little power consumption. The 3D S‐RGOH is characterized and the sensing mechanisms are proposed. This work gains new insights into boosting the sensitivity of detecting various gases by combining chemical modification and 3D structural engineering of RGO, and improving the selectivity of gas sensing by employing temperature dependent response characteristics of RGO for different gases. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Wu, Jin Tao, Kai Guo, Yuanyuan Li, Zhong Wang, Xiaotian Luo, Zhongzhen Feng, Shuanglong Du, Chunlei Chen, Di Miao, Jianmin Norford, Leslie K. |
| format |
Article |
| author |
Wu, Jin Tao, Kai Guo, Yuanyuan Li, Zhong Wang, Xiaotian Luo, Zhongzhen Feng, Shuanglong Du, Chunlei Chen, Di Miao, Jianmin Norford, Leslie K. |
| author_sort |
Wu, Jin |
| title |
A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor |
| title_short |
A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor |
| title_full |
A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor |
| title_fullStr |
A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor |
| title_full_unstemmed |
A 3D chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor |
| title_sort |
3d chemically modified graphene hydrogel for fast, highly sensitive, and selective gas sensor |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/87244 http://hdl.handle.net/10220/45349 |
| _version_ |
1759853911002316800 |