用于防污的聚电解质效应的反向驱动

Reverse Actuation of Polyelectrolyte Effect for Antifouling.

作者信息

Choi Woojin, Park Sohyeon, Kwon Jae-Sung, Jang Eun-Young, Kim Ji-Yeong, Heo Jiwoong, Hwang YoungDeok, Kim Byeong-Su, Moon Ji-Hoi, Jung Sungwon, Choi Sung-Hwan, Lee Hwankyu, Ahn Hyo-Won, Hong Jinkee

机构信息

Department of Chemical and Biomolecular Engineering, College of Engineering, Yonsei University, 50 Yonsei-ro, Seodaemun-gu, Seoul 03722, Republic of Korea.

Department and Research Institute of Dental Biomaterials and Bioengineering and BK21 FOUR Project, Yonsei University College of Dentistry, Seoul 03722, Republic of Korea.

出版信息

ACS Nano. 2021 Apr 27;15(4):6811-6828. doi: 10.1021/acsnano.0c10431. Epub 2021 Mar 26.

DOI:10.1021/acsnano.0c10431

PMID:33769787

Abstract

Zwitterionic polymers have extraordinary properties, that is, significant hydration and the so-called antipolyelectrolyte effect, which make them suitable for biomedical applications. The hydration induces an antifouling effect, and this has been investigated significantly. The antipolyelectrolyte effect refers to the extraordinary ion-responsive behavior of particular polymers that swell and hydrate considerably in physiological solutions. This actuation begins to attract attention to achieve antifouling that is challenging for general polyelectrolytes. In this study, we established the sophisticated cornerstone of the antipolyelectrolyte effect in detail, including (i) the essential parameters, (ii) experimental verifications, and (iii) effect of improving antifouling performance. First, we find that both osmotic force and charge screening are essential factors. Second, we identify the antipolyelectrolyte effect by visualizing the swelling and hydration dynamics. Finally, we verify that the antifouling performance can be enhanced by exploiting the antipolyelectrolyte effect and report reduction of 85% and 80% in and biofilm formation, respectively.

摘要

两性离子聚合物具有非凡的性能，即显著的水合作用和所谓的抗聚电解质效应，这使得它们适用于生物医学应用。水合作用会产生抗污效果，对此已进行了大量研究。抗聚电解质效应是指特定聚合物在生理溶液中会显著膨胀和水合的非凡离子响应行为。这种作用开始引起人们的关注，以实现对普通聚电解质来说具有挑战性的抗污效果。在本研究中，我们详细地建立了抗聚电解质效应的复杂基石，包括（i）基本参数，（ii）实验验证，以及（iii）对抗污性能的改善效果。首先，我们发现渗透力和电荷屏蔽都是关键因素。其次，我们通过观察膨胀和水合动力学来确定抗聚电解质效应。最后，我们验证了利用抗聚电解质效应可以提高抗污性能，并报告在[具体生物名称1]和[具体生物名称2]生物膜形成中分别减少了85%和80%。

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用于防污的聚电解质效应的反向驱动

Reverse Actuation of Polyelectrolyte Effect for Antifouling.

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