Tough, Long-Term, Water-Resistant, and Underwater Adhesion of Low-Molecular-Weight Supramolecular Adhesives

Modern functional adhesives have attracted considerable attention due to their reversible adhesion capacities and stimuli-responsive adhesion behavior. However, for modern functional adhesives, polymeric structures were highly necessary to realize adhesion behaviors. Supramolecular adhesives from lo...

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Published in	Journal of the American Chemical Society Vol. 142; no. 11; pp. 5371 - 5379
Main Authors	Li, Xing, Deng, Yan, Lai, Jinlei, Zhao, Gai, Dong, Shengyi
Format	Journal Article
Language	English
Published	WASHINGTON American Chemical Society 18.03.2020 Amer Chemical Soc
Subjects	adhesion adhesives Chemistry Chemistry, Multidisciplinary Physical Sciences polymers Science & Technology seawater WET ADHESION CATECHOL SYNERGY
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Abstract	Modern functional adhesives have attracted considerable attention due to their reversible adhesion capacities and stimuli-responsive adhesion behavior. However, for modern functional adhesives, polymeric structures were highly necessary to realize adhesion behaviors. Supramolecular adhesives from low-molecular-weight monomers were rarely recognized. Compared with polymeric adhesive materials, it remains challenging for supramolecualr adhesive materials to realize tough adhesion on wet surfaces or even under water. In this study, a new supramolecular adhesive consisting of low-molecular-weight monomers was successfully designed and prepared. Strong and long-term adhesion performance was realized on various surfaces, with a maximum adhesion strength of 4.174 MPa. This supramolecular adhesive exhibits tough and stable adhesion properties in high-moisture and underwater environments (including seawater). Long-term underwater adhesion tests display the potential application of low-molecular-weight adhesive as a marine adhesive.
AbstractList	Modern functional adhesives have attracted considerable attention due to their reversible adhesion capacities and stimuli-responsive adhesion behavior. However, for modern functional adhesives, polymeric structures were highly necessary to realize adhesion behaviors. Supramolecular adhesives from low-molecular-weight monomers were rarely recognized. Compared with polymeric adhesive materials, it remains challenging for supramolecualr adhesive materials to realize tough adhesion on wet surfaces or even under water. In this study, a new supramolecular adhesive consisting of low-molecular-weight monomers was successfully designed and prepared. Strong and long-term adhesion performance was realized on various surfaces, with a maximum adhesion strength of 4.174 MPa. This supramolecular adhesive exhibits tough and stable adhesion properties in high-moisture and underwater environments (including seawater). Long-term underwater adhesion tests display the potential application of low-molecular-weight adhesive as a marine adhesive. Modern functional adhesives have attracted considerable attention due to their reversible adhesion capacities and stimuli-responsive adhesion behavior. However, for modern functional adhesives, polymeric structures were highly necessary to realize adhesion behaviors. Supramolecular adhesives from low-molecular-weight monomers were rarely recognized. Compared with polymeric adhesive materials, it remains challenging for supramolecualr adhesive materials to realize tough adhesion on wet surfaces or even under water. In this study, a new supramolecular adhesive consisting of low-molecular-weight monomers was successfully designed and prepared. Strong and long-term adhesion performance was realized on various surfaces, with a maximum adhesion strength of 4.174 MPa. This supramolecular adhesive exhibits tough and stable adhesion properties in high-moisture and underwater environments (including seawater). Long-term underwater adhesion tests display the potential application of low-molecular-weight adhesive as a marine adhesive.Modern functional adhesives have attracted considerable attention due to their reversible adhesion capacities and stimuli-responsive adhesion behavior. However, for modern functional adhesives, polymeric structures were highly necessary to realize adhesion behaviors. Supramolecular adhesives from low-molecular-weight monomers were rarely recognized. Compared with polymeric adhesive materials, it remains challenging for supramolecualr adhesive materials to realize tough adhesion on wet surfaces or even under water. In this study, a new supramolecular adhesive consisting of low-molecular-weight monomers was successfully designed and prepared. Strong and long-term adhesion performance was realized on various surfaces, with a maximum adhesion strength of 4.174 MPa. This supramolecular adhesive exhibits tough and stable adhesion properties in high-moisture and underwater environments (including seawater). Long-term underwater adhesion tests display the potential application of low-molecular-weight adhesive as a marine adhesive.
Author	Deng, Yan Li, Xing Zhao, Gai Lai, Jinlei Dong, Shengyi
AuthorAffiliation	State Key Laboratory of Mechanics and Control of Mechanical Structures College of Chemistry and Chemical Engineering
AuthorAffiliation_xml	– name: College of Chemistry and Chemical Engineering – name: State Key Laboratory of Mechanics and Control of Mechanical Structures
Author_xml	– sequence: 1 givenname: Xing surname: Li fullname: Li, Xing organization: College of Chemistry and Chemical Engineering – sequence: 2 givenname: Yan surname: Deng fullname: Deng, Yan organization: College of Chemistry and Chemical Engineering – sequence: 3 givenname: Jinlei surname: Lai fullname: Lai, Jinlei organization: College of Chemistry and Chemical Engineering – sequence: 4 givenname: Gai orcidid: 0000-0002-6466-4223 surname: Zhao fullname: Zhao, Gai email: zhaogai@nuaa.edu.cn organization: State Key Laboratory of Mechanics and Control of Mechanical Structures – sequence: 5 givenname: Shengyi orcidid: 0000-0002-8640-537X surname: Dong fullname: Dong, Shengyi email: dongsy@hnu.edu.cn organization: College of Chemistry and Chemical Engineering
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Snippet	Modern functional adhesives have attracted considerable attention due to their reversible adhesion capacities and stimuli-responsive adhesion behavior....
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SubjectTerms	adhesion adhesives Chemistry Chemistry, Multidisciplinary Physical Sciences polymers Science & Technology seawater
Title	Tough, Long-Term, Water-Resistant, and Underwater Adhesion of Low-Molecular-Weight Supramolecular Adhesives
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