在无氧的酸性环境中多巴胺的自聚合。

Self-Polymerization of Dopamine in Acidic Environments without Oxygen.

机构信息

Department of Civil, Environmental and Ocean Engineering, Charles V. Schaefer School of Egnieering and Science, and ‡Department of Chemistry, Chemical Biology, and Biomedical Engineering, Charles V. Schaefer School of Egnieering and Science, Stevens Institute of Technology , Hoboken, New Jersey 07307, United States.

出版信息

Langmuir. 2017 Jun 13;33(23):5863-5871. doi: 10.1021/acs.langmuir.7b01127. Epub 2017 May 30.

DOI:10.1021/acs.langmuir.7b01127

PMID:28505456

Abstract

An alkaline environment and the presence of oxygen are essential requirements for dopamine polymerization. In this study, we are the first to demonstrate the self-polymerization of dopamine through plasma-activated water (PAW) under acidic environments (pH < 5.5). Resulting poly(dopamine) (PDA) was characterized using Nanosizer, SEM, FTIR, UV-vis, H NMR, and fluorescence spectrophotometers and proved to have similar physical and chemical properties to those polymerized under a basic condition, except that the PDA particles formed in PAW were more stable and hardly aggregated at varied pHs. The PAW polymerization method avoids alkaline solutions and the presence of oxygen and thus extends the applications of dopamine polymerization, particularly in biomedical and pharmaceutical sciences.

摘要

碱性环境和氧气的存在是多巴胺聚合的必要条件。在这项研究中，我们首次证明了在酸性环境（pH<5.5）下，通过等离子体激活水（PAW）可以实现多巴胺的自聚合。使用纳米粒度仪、SEM、FTIR、UV-vis、H NMR 和荧光分光光度计对生成的聚多巴胺（PDA）进行了表征，结果表明，除了在 PAW 中形成的 PDA 颗粒在不同 pH 值下更稳定且几乎不聚集外，其物理化学性质与在碱性条件下聚合的 PDA 相似。PAW 聚合方法避免了碱性溶液和氧气的存在，从而扩展了多巴胺聚合的应用范围，特别是在生物医学和制药科学领域。

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在无氧的酸性环境中多巴胺的自聚合。

Self-Polymerization of Dopamine in Acidic Environments without Oxygen.

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