Mussel-inspired thermo-switchable underwater adhesive based on a Janus hydrogel

IF 8.6 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Npg Asia Materials Pub Date : 2024-10-11 DOI:10.1038/s41427-024-00569-1

Hiroya Abe, Daichi Yoshihara, Soichiro Tottori, Matsuhiko Nishizawa

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Abstract

On-demand underwater adhesives with excellent adhesive and gentle detachment properties enable stable connections to various biomedical devices and biointerfaces and avoid the risk of harmful tissue damage upon detachment. Herein, we present a Janus hydrogel adhesive that can reversibly switch its adhesion strength, which is controlled by temperature, using a thermoresponsive polymer and mussel-inspired molecules. This thermoswitchable adhesive (TSA) hydrogel displays both strong adhesion and gentle detachment with an over 1000-fold gap in underwater adhesion strength onto glass, titanium, aluminum, and Teflon substrates when exposed to temperatures above and below the lower critical solution temperature (LCST). The adhesion switch is possibly caused by the change in toughness of the TSA hydrogels with temperature because the Janus hydrogel possesses gradient crosslinked structures. Moreover, the lowermost surface is sufficiently soft to gently detach from the substrate below the LCST. The electrode-integrated hydrogel remains on human skin, and electrical signals are continuous over 10 min above the LCST. In contrast, commercially available hydrogel electrodes quickly swell and detach from the skin. The thermoswitchability of the TSA hydrogel, with its robust adhesion and gentle detachment, offers significant potential for biomedical applications characterized by minimally invasive procedures. On-demand underwater adhesives with excellent adhesive and gentle detachment properties enable stable connections to various biomedical devices and bio-interfaces and avoid the risk of harmful tissue damage upon detachment. Herein, we present a Janus hydrogel adhesive that can reversibly switch its adhesion strength, which is controlled by temperature, using a thermoresponsive polymer and mussel-inspired molecules. This thermoswitchable adhesive hydrogel displays both strong adhesion and gentle detachment with an over 1,000-fold gap in underwater adhesion strength. The thermoswitchability of the hydrogel adhesives, with its robust adhesion and gentle detachment, offers significant potential for biomedical applications characterized by minimally invasive procedures.

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基于 Janus 水凝胶的贻贝热转换水下粘合剂

随需应变的水下粘合剂具有优异的粘附性和温和的分离特性，可以稳定地连接到各种生物医学设备和生物界面，并避免分离时有害组织损伤的风险。在这里，我们提出了一种Janus水凝胶粘合剂，它可以可逆地改变其粘附强度，这是由温度控制的，使用热响应聚合物和贻贝启发的分子。当暴露在高于或低于较低临界溶液温度（LCST）的温度下时，这种热切换粘合剂（TSA）水凝胶显示出强大的附着力和温和的脱离，在玻璃，钛，铝和特氟龙基材上的水下附着力差距超过1000倍。由于Janus水凝胶具有梯度交联结构，因此可能是由于TSA水凝胶的韧性随温度的变化而引起的。此外，最下面的表面足够柔软，可以从lst下面的基材上轻轻分离。电极集成水凝胶在人体皮肤上停留，电信号在lst以上连续10分钟以上。相反，市售的水凝胶电极会迅速膨胀并与皮肤分离。TSA水凝胶的热开关性，具有强大的粘附性和温和的分离性，为以微创手术为特征的生物医学应用提供了巨大的潜力。随需应变的水下粘合剂具有优异的粘附性和温和的剥离性能，可与各种生物医学设备和生物界面稳定连接，并避免剥离时有害组织损伤的风险。在这里，我们提出了一种Janus水凝胶粘合剂，它可以可逆地改变其粘附强度，这是由温度控制的，使用热响应聚合物和贻贝启发的分子。这种可热切换的粘合剂水凝胶具有很强的附着力和温和的脱离性，在水下的附着力差距超过1000倍。水凝胶粘接剂的热可切换性，具有强大的粘连性和温和的分离性，为以微创手术为特征的生物医学应用提供了巨大的潜力。

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来源期刊

Npg Asia Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

15.40

自引率

1.00%

发文量

审稿时长

2 months

期刊介绍： NPG Asia Materials is an open access, international journal that publishes peer-reviewed review and primary research articles in the field of materials sciences. The journal has a global outlook and reach, with a base in the Asia-Pacific region to reflect the significant and growing output of materials research from this area. The target audience for NPG Asia Materials is scientists and researchers involved in materials research, covering a wide range of disciplines including physical and chemical sciences, biotechnology, and nanotechnology. The journal particularly welcomes high-quality articles from rapidly advancing areas that bridge the gap between materials science and engineering, as well as the classical disciplines of physics, chemistry, and biology. NPG Asia Materials is abstracted/indexed in Journal Citation Reports/Science Edition Web of Knowledge, Google Scholar, Chemical Abstract Services, Scopus, Ulrichsweb (ProQuest), and Scirus.