Chemical Modification of Cu2O Nanoparticles with Triacetoxy(Vinyl)Silane: Enhanced Dispersion, Abrasion Resistance, and Thermal Stability in Acrylic Coatings

IF 2.7 4区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR
Xuan Thang Dam, Thuy Chinh Nguyen, Anh Hiep Nguyen, Dinh Hieu Vu, Thi Ngoc Lien Ly, Hoang Nghia Trinh, Thi Lan Phung, Tuan Anh Nguyen, Phi Hung Dao, Hoang Thai
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Abstract

The synthesis of Cu2O nanoparticles (NPs) through the reduction of copper hydroxide using ascorbic acid and then Cu2O NPs modified with triacetoxy(vinyl)silane (TVAS) (m-Cu2O) by solution method were achieved. FTIR analysis of the unmodified Cu2O NPs and m-Cu2O NPs revealed the presence of absorption characteristics corresponding to Cu–O–Si linkages in the FTIR spectra of m-Cu2O NPs, which is strong evidence that the Cu2O NPs have been successfully modified. The characteristics and properties of m-Cu2O NPs were determined and compared to those of the u-Cu2O NPs. The results indicated that the modification process had an insignificant effect on the crystal structure and morphology of Cu2O NPs. X-ray diffraction analysis indicated that the crystal grain size of m-Cu2O NPs slightly increased, measuring 41.04 nm compared to 38.36 nm for the u-Cu2O NPs, this change was minor. However, the m-Cu2O NPs demonstrated enhanced dispersion into acrylic emulsion polymer, resulting in improved abrasion resistance and thermal stability of the acrylic coating. In comparison with an acrylic coating filled with the u-Cu2O NPs, the coating filled with m-Cu2O NPs exhibited a 70% increase in abrasion resistance and better thermal stability. Importantly, the antibacterial performance against E. coli and S. aureus of acrylic coating filled with m-Cu2O NPs was similar to that of the u-Cu2O NPs nanocomposite coating. These findings underscore the versatility and benefits of chemical modification in enhancing specific properties of the acrylic coating without compromising antibacterial efficacy.

Abstract Image

Abstract Image

用三乙酰氧基(乙烯基)硅烷对 Cu2O 纳米粒子进行化学改性:增强丙烯酸涂料的分散性、耐磨性和热稳定性
通过抗坏血酸还原氢氧化铜合成了 Cu2O 纳米粒子(NPs),然后用溶液法合成了用三乙酰氧基(乙烯基)硅烷(TVAS)修饰的 Cu2O 纳米粒子(m-Cu2O)。对未修饰的 Cu2O NPs 和 m-Cu2O NPs 进行傅立叶变换红外光谱分析后发现,m-Cu2O NPs 的傅立叶变换红外光谱中存在与 Cu-O-Si 链接相对应的吸收特征,这有力地证明了 Cu2O NPs 已被成功修饰。测定了 m-Cu2O NPs 的特征和性质,并与 u-Cu2O NPs 的特征和性质进行了比较。结果表明,改性过程对 Cu2O NPs 的晶体结构和形态影响不大。X 射线衍射分析表明,m-Cu2O NPs 的晶体粒度略有增加,为 41.04 nm,而 u-Cu2O NPs 的晶体粒度为 38.36 nm。不过,m-Cu2O NPs 在丙烯酸乳液聚合物中的分散性得到了增强,从而提高了丙烯酸涂层的耐磨性和热稳定性。与填充了 u-Cu2O NPs 的丙烯酸涂层相比,填充了 m-Cu2O NPs 的涂层的耐磨性提高了 70%,热稳定性也更好。重要的是,填充了 m-Cu2O NPs 的丙烯酸涂层对大肠杆菌和金黄色葡萄球菌的抗菌性能与 u-Cu2O NPs 纳米复合涂层相似。这些发现强调了化学改性在增强丙烯酸涂层的特定性能而不影响抗菌效果方面的多功能性和优势。
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来源期刊
Journal of Cluster Science
Journal of Cluster Science 化学-无机化学与核化学
CiteScore
6.70
自引率
0.00%
发文量
166
审稿时长
3 months
期刊介绍: The journal publishes the following types of papers: (a) original and important research; (b) authoritative comprehensive reviews or short overviews of topics of current interest; (c) brief but urgent communications on new significant research; and (d) commentaries intended to foster the exchange of innovative or provocative ideas, and to encourage dialogue, amongst researchers working in different cluster disciplines.
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