2016
DOI: 10.1002/marc.201600065
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UV‐Triggered Surface‐Initiated Polymerization from Colorless Green Tea Polyphenol‐Coated Surfaces

Abstract: A facile and versatile approach to constructing colorless surface coatings based on green tea polyphenols is reported, which can further act as a photoinitiating layer to initiate radical polymerization. These colorless green tea polyphenol coatings are capable of successfully photografting polymer brushes, and the resulting polymer brush patterns show spatial shape adjustability by masked UV irradiation. Both surface modifications and photografted polymer brushes do not alter the original color of the substra… Show more

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Cited by 29 publications
(18 citation statements)
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“…Therefore, by using lithography masks, PDA can be selectively deposited under UV light to pattern the surface. [35][36][37] Such kind of patterned surface is promising to be applied in electrics, bio-chips and sensors. [38] The UV irradiation can also trigger the polymerization and deposition of phenolic compounds in plants on various substrates.…”
Section: Recent Advances In Mussel-inspired Surface Chemistrymentioning
confidence: 99%
See 1 more Smart Citation
“…Therefore, by using lithography masks, PDA can be selectively deposited under UV light to pattern the surface. [35][36][37] Such kind of patterned surface is promising to be applied in electrics, bio-chips and sensors. [38] The UV irradiation can also trigger the polymerization and deposition of phenolic compounds in plants on various substrates.…”
Section: Recent Advances In Mussel-inspired Surface Chemistrymentioning
confidence: 99%
“…After that, they found other polyphenols, such as green tea polyphenol, could also generate radicals and initiate the polymerization under UV irradiation on material surfaces. [35] This strategy has been employed in fabricating stimuli-responsive hollow spheres for controlled pesticide release by Sheng et al [65] As a competitive strategy to graft functional polymers onto surfaces, the PDA-initiated photo-grafting is a promising approach to be applied in membrane surface modification in future research. This article is protected by copyright.…”
mentioning
confidence: 99%
“…Adding GTPs to the surface of silica containing a large number of phenolic hydroxyl groups could obtain a new type of biomass anti-aging filler, which can enhance and optimize the anti-aging properties of rubber composites, and was beneficial to the development of "green rubber" industry (Xiaohui et al, 2020). Bai et al (2016) successfully built the light graft polymer brushes by the colorless surface coating constructed with GTPs as the base material, without covering the original color of the substrate, and the GTPs layer had good cutting properties, which could be widely used in the field of surface modification. In addition, a relatively low dose of polyphenols (0.01%) could reduce the particle size of proteins and change the surface characteristics of droplets caused by protein-polyphenols interaction, thus improving the physical stability of emulsions.…”
Section: Application Of Tps In Other Fieldsmentioning
confidence: 99%
“…Indeed, the UVirradiated generates on the TP surface, surface-bound radicals which can be used for a photoinduced polymerization. When compared with polydopaminecoated surfaces, green tea polyphenol layers were typically colorless instead of dark-black which can be a plus in some applications [62].…”
Section: Self-initiating Photograftingmentioning
confidence: 99%