Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection
Superwettable patterns with superhydrophobic and superhydrophilic units have the capacity of enriching and absorbing microdroplets for multifunctional biosensing. Combining the advantages of superwettable micropatterns and a rapid click reaction, we first prepared a film using propargyl methacrylate...
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sg-ntu-dr.10356-1507782023-07-14T16:01:21Z Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection Huang, Jianying Yang, Hui Mao, Jiajun Guo, Fang Cheng, Yan Chen, Zhong Wang, Xiaoqin Li, Xiao Lai, Yuekun School of Materials Science and Engineering Engineering::Materials Superhydrophobic−superhydrophilic Microchips Superwettable patterns with superhydrophobic and superhydrophilic units have the capacity of enriching and absorbing microdroplets for multifunctional biosensing. Combining the advantages of superwettable micropatterns and a rapid click reaction, we first prepared a film using propargyl methacrylate–ethylene dimethacrylate and then created a superhydrophobic–superhydrophilic micropattern by a rapid thiol–yne click reaction. Due to the high wettability contrast, water droplets tend to be anchored in the superhydrophilic region. Molecules dissolved in a water droplet are therefore uniformly enriched in the superhydrophilic region after evaporation because of the Malangoni effect. This provides a rational strategy to develop novel patterned microchips for sensing applications. Combining with fluorescence imaging technology, the Ti superwettable microchip can be used to detect o-phthalaldehyde in water, with a detection limit as low as 10–7 mol L–1. In addition, taking advantage of the oxidative color rendering ability of glucose, the microchip, when fabricated on a glass substrate, can realize reuseable glucose detection with a detection limit of 2 mM within 15 min. Accepted version J.H. and H.Y. contributed equally to this work. The authors thank the National Natural Science Foundation of China (21501127 and 51502185), 111 Project (No. D17005), the Natural Science Foundation of Fujian Province (2019J01256), and the funds from the Priority Academic Program Development of Jiangsu Higher Education Institutions (PAPD). 2021-05-28T07:05:29Z 2021-05-28T07:05:29Z 2019 Journal Article Huang, J., Yang, H., Mao, J., Guo, F., Cheng, Y., Chen, Z., Wang, X., Li, X. & Lai, Y. (2019). Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection. ACS Biomaterials Science & Engineering, 5(11), 6186-6195. https://dx.doi.org/10.1021/acsbiomaterials.9b00821 2373-9878 0000-0001-7518-1414 0000-0003-4100-510X https://hdl.handle.net/10356/150778 10.1021/acsbiomaterials.9b00821 33405526 2-s2.0-85073163619 11 5 6186 6195 en ACS Biomaterials Science & Engineering This document is the Accepted Manuscript version of a Published Work that appeared in final form in ACS Biomaterials Science & Engineering, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acsbiomaterials.9b00821 application/pdf |
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Engineering::Materials Superhydrophobic−superhydrophilic Microchips Huang, Jianying Yang, Hui Mao, Jiajun Guo, Fang Cheng, Yan Chen, Zhong Wang, Xiaoqin Li, Xiao Lai, Yuekun Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection |
| description |
Superwettable patterns with superhydrophobic and superhydrophilic units have the capacity of enriching and absorbing microdroplets for multifunctional biosensing. Combining the advantages of superwettable micropatterns and a rapid click reaction, we first prepared a film using propargyl methacrylate–ethylene dimethacrylate and then created a superhydrophobic–superhydrophilic micropattern by a rapid thiol–yne click reaction. Due to the high wettability contrast, water droplets tend to be anchored in the superhydrophilic region. Molecules dissolved in a water droplet are therefore uniformly enriched in the superhydrophilic region after evaporation because of the Malangoni effect. This provides a rational strategy to develop novel patterned microchips for sensing applications. Combining with fluorescence imaging technology, the Ti superwettable microchip can be used to detect o-phthalaldehyde in water, with a detection limit as low as 10–7 mol L–1. In addition, taking advantage of the oxidative color rendering ability of glucose, the microchip, when fabricated on a glass substrate, can realize reuseable glucose detection with a detection limit of 2 mM within 15 min. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Huang, Jianying Yang, Hui Mao, Jiajun Guo, Fang Cheng, Yan Chen, Zhong Wang, Xiaoqin Li, Xiao Lai, Yuekun |
| format |
Article |
| author |
Huang, Jianying Yang, Hui Mao, Jiajun Guo, Fang Cheng, Yan Chen, Zhong Wang, Xiaoqin Li, Xiao Lai, Yuekun |
| author_sort |
Huang, Jianying |
| title |
Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection |
| title_short |
Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection |
| title_full |
Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection |
| title_fullStr |
Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection |
| title_full_unstemmed |
Rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection |
| title_sort |
rapid and controllable design of robust superwettable microchips by a click reaction for efficient o-phthalaldehyde and glucose detection |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150778 |
| _version_ |
1773551319519330304 |