期刊
ADVANCED SCIENCE
卷 -, 期 -, 页码 -出版社
WILEY
DOI: 10.1002/advs.202308153
关键词
dopamine; homogeneous coating; ozone; rapid polymerization; surface modification
This study successfully develops a green strategy to accelerate and control dopamine polymerization using ozone. The resulting polydopamine coatings exhibit highly homogeneous morphology, good hydrophilicity, and exceptional stability.
The development of green, controllable, and simplified pathways for rapid dopamine polymerization holds significant importance in the field of polydopamine (PDA) surface chemistry. In this study, a green strategy is successfully devised to accelerate and control the polymerization of dopamine through the introduction of ozone (O3). The findings reveal that ozone serves as an eco-friendly trigger, significantly accelerating the dopamine polymerization process across a broad pH range, spanning from 4.0 to 10.0. Notably, the deposition rate of PDA coatings on a silicon wafer reaches an impressive value of approximate to 64.8 nm h-1 (pH 8.5), which is 30 times higher than that of traditional air-assisted PDA and comparable to the fastest reported method. Furthermore, ozone exhibits the ability to accelerate dopamine polymerization even under low temperatures. It also enables control over the inhibition-initiation of the polymerization process by regulating the ON/OFF mode of the ozone gas. Moreover, the ozone-induced PDA coatings demonstrate exceptional characteristics, including high homogeneity, good hydrophilicity, and remarkable chemical and mechanical stability. Additionally, the ozone-induced PDA coatings can be rapidly and effectively deposited onto a wide range of substrates, particularly those that are adhesion-resistant, such as polytetrafluoroethylene (PTFE). A green, controllable and simplified protocol for accelerating dopamine polymerization under a wide range of pH conditions is proposed by utilizing ozone technology. This innovative approach enables the deposition of polydopamine coatings on silicon wafers at an impressive rate of 64.8 nm h-1. The resulting polydopamine coatings exhibit a highly homogeneous morphology, good hydrophilicity and exceptional chemical and mechanical stability.image
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