反应激光烧蚀在铝硅酸盐纳米矿物液态合成中的应用。

IF 2.9 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Nanotechnology Pub Date : 2024-12-19 DOI:10.1088/1361-6528/ada160

Chamari Weththasingha, Emily Anne Jackson, Massimo F Bertino, Wei-Ning Wang, Katharine Tibbetts

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引用次数: 0

摘要

纳米级铝硅酸盐矿物在催化、环境修复和医学等领域有着广泛的应用。本研究报告了一种反应性激光烧蚀液体（RLAL）合成铝硅酸盐纳米矿物的方法，该方法可以轻松调整其元素组成、结晶度和形态。发现前驱体溶液的pH值和调节pH值的碱的选择可以决定激光烧蚀硅靶在硝酸铝水溶液中产生的纳米矿物的性质。在碱性条件下，氨水的加入可产生纤维状或管状的非晶态相，铝含量高。相反，氢氧化钾的加入产生了高度结晶的准球形颗粒，具有大量的硅酸铝和硅酸铝钾相。这些结果表明，RLAL的前驱体溶液化学操作可以产生具有广泛性能的铝硅酸盐纳米矿物，证明了RLAL在合成特定应用的定制纳米矿物方面的灵活性。

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Reactive laser ablation in liquid synthesis of aluminosilicate nanominerals.

Nanoscale aluminosilicate minerals have wide ranging applications in areas including catalysis, environmental remediation, and medicine. This work reports a reactive laser ablation in liquid (RLAL) synthetic route to aluminosilicate nanominerals that enables facile tuning of their elemental composition, crystallinity, and morphology. Both the precursor solution pH and the choice of base used to adjust the pH were found to determine the properties of the nanominerals produced by laser ablation of a silicon target in aqueous solution of aluminum nitrate. Addition of ammonia produced amorphous phases with fiber- or tube-like morphologies and high aluminum content under alkaline conditions. In contrast, the addition of potassium hydroxide produced highly crystalline quasi-spherical particles, with numerous aluminum silicate and potassium aluminum silicate phases. These results show that manipulation of the precursor solution chemistry for RLAL can produce aluminosilicate nanominerals with a wide range of properties, demonstrating the flexibility of RLAL for synthesis of tailored nanominerals for specific applications.

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来源期刊

Nanotechnology 工程技术-材料科学：综合

CiteScore

7.10

自引率

5.70%

发文量

820

审稿时长

2.5 months

期刊介绍： The journal aims to publish papers at the forefront of nanoscale science and technology and especially those of an interdisciplinary nature. Here, nanotechnology is taken to include the ability to individually address, control, and modify structures, materials and devices with nanometre precision, and the synthesis of such structures into systems of micro- and macroscopic dimensions such as MEMS based devices. It encompasses the understanding of the fundamental physics, chemistry, biology and technology of nanometre-scale objects and how such objects can be used in the areas of computation, sensors, nanostructured materials and nano-biotechnology.