Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy
Many zwitterionic polymer brushes exhibit highly stimuli-responsive properties stemming from the strong dipole and electrostatic interaction of their building blocks. Here, we showed how a combination of two atomic force microscopy (AFM) modes can reveal the layered structure of poly(sulfobetaine me...
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sg-ntu-dr.10356-1714102024-04-03T15:31:51Z Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy Mondarte, Evan Angelo Quimada Shi, Yuchen Koh, Xue Qi Feng, Xueyu Daniel, Dan Zhang, Xin-Xing Yu, Jing School of Materials Science and Engineering Institute for Digital Molecular Analytics and Science (IDMxS) Chemistry Atomic Force Microscopy Crystal Atomic Structure Many zwitterionic polymer brushes exhibit highly stimuli-responsive properties stemming from the strong dipole and electrostatic interaction of their building blocks. Here, we showed how a combination of two atomic force microscopy (AFM) modes can reveal the layered structure of poly(sulfobetaine methacrylate) brushes synthesized by surface-initiated atom-transfer radical polymerization. Due to polydispersity and anti-polyelectrolyte effect, a diffused layer emerges on top of a condensed layer of the brush as a function of salt concentration. The amplitude-modulation mode of the AFM, owing to the tip’s dynamic motion, can only probe the more stable condensed layer near the substrate, whereas the force-spectroscopic mode with its high sensitivity can accurately detect the diffused layer and hence determine the total brush thickness. Infrared spectroscopy and quartz crystal microbalance monitoring revealed the strong ion-screening effect and higher brush hydration propensity of multivalent ions. Different cation valencies also showed subtle effects on the dimensionality of the layered structure. Our results highlight the usefulness of AFM in revealing various contextual phenomena that arise from the unique properties of zwitterionic polymers. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version This work is supported by the Singapore National Research Fellowship (NRF-NRFF11-2019-0004) and the Singapore Ministry of Education (MOE) Tier2 Grant (MOE-T2EP30220-0006). X.-X.Z. acknowledges the support from Fundamental Research Funds for the Central Universities (DUT21RC(3)030). 2023-10-25T05:03:16Z 2023-10-25T05:03:16Z 2023 Journal Article Mondarte, E. A. Q., Shi, Y., Koh, X. Q., Feng, X., Daniel, D., Zhang, X. & Yu, J. (2023). Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy. Macromolecules, 56(13), 5001-5009. https://dx.doi.org/10.1021/acs.macromol.3c00721 0024-9297 https://hdl.handle.net/10356/171410 10.1021/acs.macromol.3c00721 2-s2.0-85164431736 13 56 5001 5009 en NRF-NRFF11-2019-0004 MOE-T2EP30220-0006 Macromolecules © 2023 American Chemical Society. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1021/acs.macromol.3c00721. application/pdf |
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Chemistry Atomic Force Microscopy Crystal Atomic Structure Mondarte, Evan Angelo Quimada Shi, Yuchen Koh, Xue Qi Feng, Xueyu Daniel, Dan Zhang, Xin-Xing Yu, Jing Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy |
| description |
Many zwitterionic polymer brushes exhibit highly stimuli-responsive properties stemming from the strong dipole and electrostatic interaction of their building blocks. Here, we showed how a combination of two atomic force microscopy (AFM) modes can reveal the layered structure of poly(sulfobetaine methacrylate) brushes synthesized by surface-initiated atom-transfer radical polymerization. Due to polydispersity and anti-polyelectrolyte effect, a diffused layer emerges on top of a condensed layer of the brush as a function of salt concentration. The amplitude-modulation mode of the AFM, owing to the tip’s dynamic motion, can only probe the more stable condensed layer near the substrate, whereas the force-spectroscopic mode with its high sensitivity can accurately detect the diffused layer and hence determine the total brush thickness. Infrared spectroscopy and quartz crystal microbalance monitoring revealed the strong ion-screening effect and higher brush hydration propensity of multivalent ions. Different cation valencies also showed subtle effects on the dimensionality of the layered structure. Our results highlight the usefulness of AFM in revealing various contextual phenomena that arise from the unique properties of zwitterionic polymers. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Mondarte, Evan Angelo Quimada Shi, Yuchen Koh, Xue Qi Feng, Xueyu Daniel, Dan Zhang, Xin-Xing Yu, Jing |
| format |
Article |
| author |
Mondarte, Evan Angelo Quimada Shi, Yuchen Koh, Xue Qi Feng, Xueyu Daniel, Dan Zhang, Xin-Xing Yu, Jing |
| author_sort |
Mondarte, Evan Angelo Quimada |
| title |
Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy |
| title_short |
Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy |
| title_full |
Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy |
| title_fullStr |
Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy |
| title_full_unstemmed |
Unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy |
| title_sort |
unveiling the layered structure of sulfobetaine polymer brushes through bimodal atomic force microscopy |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171410 |
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1800916373723938816 |