Revisiting contact electrification at polymer-liquid interfaces
Contact electrification (CE) occurs naturally at all interfaces between solids and solids, solids and liquids, solids and gasses, and so forth. It has been extensively studied for decades. While CE at a solid-solid interface has been demonstrated to be primarily caused by electron transfer, the unde...
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sg-ntu-dr.10356-1646612023-02-08T00:51:49Z Revisiting contact electrification at polymer-liquid interfaces Tan, Chen Xu, Ran Zhang, Qing School of Electrical and Electronic Engineering Centre of Micro-/Nanoelectronics (CMNE) Engineering::Electrical and electronic engineering Charge Transfer Electric Utilities Contact electrification (CE) occurs naturally at all interfaces between solids and solids, solids and liquids, solids and gasses, and so forth. It has been extensively studied for decades. While CE at a solid-solid interface has been demonstrated to be primarily caused by electron transfer, the underlying mechanism of CE at a liquid-solid interface remains controversial. In this paper, the CE process between polyethylene terephthalate (PET) and different inorganic solutions at different temperatures is studied to investigate the charge transfer mechanism. The observed temperature-CE charge relationship falls into two categories, that is, the general case and the special case. In the general case, the CE charge first increases negatively and then positively with the temperature. The CE charge increasing negatively could result from enhanced electron transfer at the interface, while the CE charge increasing positively may be caused by increasing adsorption of cations, which neutralize the negative charges on the PET surface. In contrast, the CE charge first increases positively and then negatively with the temperature in the special case. The CE charge increasing positively could be attributed to more cations being attracted to the negatively charged PET surface, while the charge increasing negatively may be caused by more anions being attracted to the PET due to enhanced cation adsorption. Supported by the surface charge and dynamic charge transfer at different PET-solution interfaces and solution temperatures, our study provides a plausible interpretation of the temperature-dependent CE at the polymer-liquid interfaces. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) This work is financially supported by A*STAR AME IRG Grant SERC A1983c0027 and MOE AcRF Tier2 (2018-T2-2-005), Singapore. C.T. acknowledges the Nanyang Research Programme (project EEE21-2021). 2023-02-08T00:51:49Z 2023-02-08T00:51:49Z 2022 Journal Article Tan, C., Xu, R. & Zhang, Q. (2022). Revisiting contact electrification at polymer-liquid interfaces. Langmuir, 38(39), 11882-11891. https://dx.doi.org/10.1021/acs.langmuir.2c01376 0743-7463 https://hdl.handle.net/10356/164661 10.1021/acs.langmuir.2c01376 36122176 2-s2.0-85138837051 39 38 11882 11891 en A1983c0027 2018-T2-2-005 EEE21-2021 Langmuir © 2022 American Chemical Society. All rights reserved. |
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Engineering::Electrical and electronic engineering Charge Transfer Electric Utilities Tan, Chen Xu, Ran Zhang, Qing Revisiting contact electrification at polymer-liquid interfaces |
| description |
Contact electrification (CE) occurs naturally at all interfaces between solids and solids, solids and liquids, solids and gasses, and so forth. It has been extensively studied for decades. While CE at a solid-solid interface has been demonstrated to be primarily caused by electron transfer, the underlying mechanism of CE at a liquid-solid interface remains controversial. In this paper, the CE process between polyethylene terephthalate (PET) and different inorganic solutions at different temperatures is studied to investigate the charge transfer mechanism. The observed temperature-CE charge relationship falls into two categories, that is, the general case and the special case. In the general case, the CE charge first increases negatively and then positively with the temperature. The CE charge increasing negatively could result from enhanced electron transfer at the interface, while the CE charge increasing positively may be caused by increasing adsorption of cations, which neutralize the negative charges on the PET surface. In contrast, the CE charge first increases positively and then negatively with the temperature in the special case. The CE charge increasing positively could be attributed to more cations being attracted to the negatively charged PET surface, while the charge increasing negatively may be caused by more anions being attracted to the PET due to enhanced cation adsorption. Supported by the surface charge and dynamic charge transfer at different PET-solution interfaces and solution temperatures, our study provides a plausible interpretation of the temperature-dependent CE at the polymer-liquid interfaces. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Tan, Chen Xu, Ran Zhang, Qing |
| format |
Article |
| author |
Tan, Chen Xu, Ran Zhang, Qing |
| author_sort |
Tan, Chen |
| title |
Revisiting contact electrification at polymer-liquid interfaces |
| title_short |
Revisiting contact electrification at polymer-liquid interfaces |
| title_full |
Revisiting contact electrification at polymer-liquid interfaces |
| title_fullStr |
Revisiting contact electrification at polymer-liquid interfaces |
| title_full_unstemmed |
Revisiting contact electrification at polymer-liquid interfaces |
| title_sort |
revisiting contact electrification at polymer-liquid interfaces |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164661 |
| _version_ |
1759058802212077568 |