Catechol-Based Antimicrobial Polymers

Razaviamri, Seyedehfatemeh; Wang, Kan; Liu, Bo; Lee, Bruce P.

doi:10.3390/molecules26030559

Cited by 36 publications

(16 citation statements)

References 135 publications

(125 reference statements)

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“…Antioxidant activity is important to protecting oxidation-prone materials in industrial applications, including as additives to commercial plastics and corrosion-resistant coatings; − however, the vulnerability of complex biological environments in food and the body encourages the design of materials with more precise control of antioxidant activity. A diverse set of properties associated with polyphenols, including low toxicity, antioxidant, antibacterial, and antiviral activity, led to their wide applications in materials for food packaging and biomedical engineering, which have been reviewed extensively. ,− After summarizing the mechanisms of polyphenolic antimicrobial activity necessary for further discussions, the following chapter will focus mainly on novel applications of polyphenols as antioxidant species within polymer materials, while briefly mentioning complementary properties that are relevant to the specified application.…”

Section: Applications In Food Packaging and Biomedical Engineeringmentioning

confidence: 99%

Integrating Antioxidant Functionality into Polymer Materials: Fundamentals, Strategies, and Applications

Brito

Hlushko

Abbott

et al. 2021

ACS Appl. Mater. Interfaces

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While antioxidants are widely known as natural components of healthy food and drinks or as additives to commercial polymer materials to prevent their degradation, recent years have seen increasing interest in enhancing the antioxidant functionality of newly developed polymer materials and coatings. This paper provides a critical overview and comparative analysis of multiple ways of integrating antioxidants within diverse polymer materials, including bulk films, electrospun fibers, and self-assembled coatings. Polyphenolic antioxidant moieties with varied molecular architecture are in the focus of this Review, because of their abundance, nontoxic nature, and potent antioxidant activity. Polymer materials with integrated polyphenolic functionality offer opportunities and challenges that span from the fundamentals to their applications. In addition to the traditional blending of antioxidants with polymer materials, developments in surface grafting and assembly via noncovalent interaction for controlling localization versus migration of antioxidant molecules are discussed. The versatile chemistry of polyphenolic antioxidants offers numerous possibilities for programmed inclusion of these molecules in polymer materials using not only van der Waals interactions or covalent tethering to polymers, but also via their hydrogen-bonding assembly with neutral molecules. An understanding and rational use of interactions of polyphenol moieties with surrounding molecules can enable precise control of concentration and retention versus delivery rate of antioxidants in polymer materials that are critical in food packaging, biomedical, and environmental applications.

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Section: Applications In Food Packaging and Biomedical Engineeringmentioning

confidence: 99%

Integrating Antioxidant Functionality into Polymer Materials: Fundamentals, Strategies, and Applications

Brito

Hlushko

Abbott

et al. 2021

ACS Appl. Mater. Interfaces

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“…[ 55,56 ] Of particular relevance here is that a range of inherently antimicrobial catechol‐modified polymers have been reported. [ 57 ] Deposition of a catechol solution on a substrate, typically dopamine, followed by exposure to oxygen leads to the formation of a strongly adherent polydopamine film on the surface. The resulting film can be functionalized using a wide range of chemistries (see below).…”

Section: Preparation Of Antimicrobial Polymers From Common Polymer Materialsmentioning

confidence: 99%

A Synthetic Overview of Preparation Protocols of Nonmetallic, Contact‐Active Antimicrobial Quaternary Surfaces on Polymer Substrates

Andersen

Madsen

Daugaard

2021

Macromol. Rapid Commun.

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Antibacterial surfaces have been researched for more than 30 years and remain highly desirable. In particular, there is an interest in providing antimicrobial properties to commodity plastics, because these, in their native state, are excellent substrates for pathogens to adhere and proliferate on. Therefore, efficient strategies for converting surfaces of commodity plastics into contact‐active antimicrobial surfaces are of significant interest. Many systems have been prepared and tested for their efficacy. Here, the synthetic approaches to such active surfaces are reviewed, with the restriction to only include systems with tested antibacterial properties. The review focuses on the synthetic approach to surface functionalization of the most common materials used and tested for biomedical applications, which effectively has limited the study to quaternary materials. For future developments in the field, it is evident that there is a need for development of simple methods that permit scalable production of active surfaces. Furthermore, in terms of efficacy, there is an outstanding concern of a lack of universal antimicrobial action as well as rapid deactivation of the antibacterial effect through surface fouling.

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“…Catechols are biologically reactive molecules that are widespread in nature and largely used in biomedicine and nanotechnology [ 1 , 2 , 3 ]. Catechol-functionalized molecules and materials are involved in many areas of chemistry and materials science [ 4 ], especially for producing: (i) metallopolymer networks for water purification [ 5 ]; (ii) adhesive functional hydrogels for biomedical applications [ 6 ]; and (iii) polymers with antimicrobial properties [ 7 ]. Catechols can be easily oxidized via autoxidation in the presence of molecular oxygen, photooxidation, or through the addition of chemical agents or enzymatic oxidants [ 8 , 9 , 10 ].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of Catechol Derived Rosamine Dyes and Their Reactivity toward Biogenic Amines

et al. 2021

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Functional organic dyes play a key role in many fields, namely in biotechnology and medical diagnosis. Herein, we report two novel 2,3- and 3,4-dihydroxyphenyl substituted rosamines (3 and 4, respectively) that were successfully synthesized through a microwave-assisted protocol. The best reaction yields were obtained for rosamine 4, which also showed the most interesting photophysical properties, specially toward biogenic amines (BAs). Several amines including n- and t-butylamine, cadaverine, and putrescine cause spectral changes of 4, in UV–Vis and fluorescence spectra, which are indicative of their potential application as an effective tool to detect amines in acetonitrile solutions. In the gas phase, the probe response is more expressive for spermine and putrescine. Additionally, we found that methanolic solutions of rosamine 4 and n-butylamine undergo a pink to yellow color change over time, which has been attributed to the formation of a new compound. The latter was isolated and identified as 5 (9−aminopyronin), whose solutions exhibit a remarkable increase in fluorescence intensity together with a shift toward more energetic wavelengths. Other 9-aminopyronins 6a, 6b, 7a, and 7b were obtained from methanolic solutions of 4 with putrescine and cadaverine, demonstrating the potential of this new xanthene entity to react with primary amines.

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Catechol-Based Antimicrobial Polymers

Cited by 36 publications

References 135 publications

Integrating Antioxidant Functionality into Polymer Materials: Fundamentals, Strategies, and Applications

Integrating Antioxidant Functionality into Polymer Materials: Fundamentals, Strategies, and Applications

A Synthetic Overview of Preparation Protocols of Nonmetallic, Contact‐Active Antimicrobial Quaternary Surfaces on Polymer Substrates

Synthesis of Catechol Derived Rosamine Dyes and Their Reactivity toward Biogenic Amines

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