Structural features and dynamic behaviour of the interlayer space of layered double hydroxide coatings

IF 6.7 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
S. Soulé, P. Durand, S. El-Kirat-Chatel, F. Quilès, C. Carteret
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引用次数: 0

Abstract

Layered double hydroxide (LDH) offer great potentialities to design functional coatings with customizable properties by exploiting their anion exchange properties. We investigated the anion exchange properties and expansion capacity of the interlayer space relating to the starting film morphology. ZnAl LDH coatings of different thicknesses and morphologies were first obtained by an in situ method using Al-based substrates. When the anion to intercalate is relatively bigger than the starting nitrates, the intercalation may be constrained by the initial LDH particle size and density composing the film. After optimising the morphology, the intercalation of three functional anions with potential antimicrobial properties was successfully achieved with an expansion of the interlayer space up to 150 % while holding the coating integrity. The release of the guest anion was studied by immersion in physiological saline solution. Finally, the possibility to regenerate the coating was demonstrated supporting the potential of these hybrid coatings for applications.

Abstract Image

层状双氢氧化物涂层层间空间的结构特征和动态特性
层状双氢氧化物(LDH)通过利用其阴离子交换特性,为设计具有可定制特性的功能性涂层提供了巨大的潜力。我们研究了与起始薄膜形态有关的阴离子交换特性和层间空间的膨胀能力。我们首先使用铝基基底,通过原位法获得了不同厚度和形态的 ZnAl LDH 涂层。当需要插层的阴离子相对大于起始硝酸盐时,插层可能会受到组成薄膜的 LDH 初始粒度和密度的限制。在对形态进行优化后,成功实现了三种具有潜在抗菌特性的功能阴离子的插层,在保持涂层完整性的同时,层间空间扩大了 150%。通过在生理盐水中浸泡,研究了客体阴离子的释放情况。最后,还证明了涂层再生的可能性,支持了这些混合涂层的应用潜力。
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来源期刊
CiteScore
8.90
自引率
6.80%
发文量
596
审稿时长
33 days
期刊介绍: Materials Today Chemistry is a multi-disciplinary journal dedicated to all facets of materials chemistry. This field represents one of the fastest-growing areas of science, involving the application of chemistry-based techniques to the study of materials. It encompasses materials synthesis and behavior, as well as the intricate relationships between material structure and properties at the atomic and molecular scale. Materials Today Chemistry serves as a high-impact platform for discussing research that propels the field forward through groundbreaking discoveries and innovative techniques.
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