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关注并突破通过脱羰作用将离子液体与微波辐射相结合来合成 Ru 纳米粒子的问题。

Concerns and breakthroughs of combining ionic liquids with microwave irradiation for the synthesis of Ru nanoparticles via decarbonylation.

机构信息

Smart Energy and Nano Photonics R&D Group, Korea Institute of Industrial Technology (KITECH), Gwangju 61012, South Korea.

Smart Energy and Nano Photonics R&D Group, Korea Institute of Industrial Technology (KITECH), Gwangju 61012, South Korea; Interdisciplinary Program for Photonic Engineering, Chonnam National University (CNU), Gwangju 61186, South Korea.

出版信息

J Colloid Interface Sci. 2021 Oct;599:828-836. doi: 10.1016/j.jcis.2021.04.046. Epub 2021 Apr 20.

DOI:10.1016/j.jcis.2021.04.046
PMID:33989935
Abstract

HYPOTHESIS

Combination of microwave irradiation (MWI) and ionic liquids (IL) is widely used for the synthesis of nanoparticles (NP) via decarbonylation of zero-valent metal carbonyl precursors. However, we carefully raise a question as to whether this combination is always beneficial. Upon MWI, highly-absorbing materials such as ILs would be subject to local intense heating, likely resulting in the occurrence of localized chemical decomposition. The decomposition is expected to influence the growth mechanism of NPs due to changes in the electrostatic and steric effects. If the assumption is valid, it should be possible to decompose IL and destabilize the NPs by modifying the amplitude of the incident microwaves. In other words, it should also be possible to control the particle aggregation by circumventing the decomposition of the IL.

EXPERIMENTS

A series of comparative studies were conducted using a model system (i.e. [BMIm][BF] and Ru(CO)). Variables were systematically controlled. After MWI, the decrease in colloidal stability of NPs was identified.

FINDINGS

In the formation of Ru NPs via decarbonylation, the association between incident microwave intensity, chemical decomposition of IL, and initiation of particle aggregation has been demonstrated. Conditions that can accelerate or alleviate the decomposition and the aggregation are also corroborated.

摘要

假设

微波辐射(MWI)和离子液体(IL)的组合广泛用于通过零价金属羰基前体的脱羰作用合成纳米颗粒(NP)。然而,我们谨慎地提出一个问题,即这种组合是否总是有益的。在 MWI 下,像 IL 这样高吸收的材料将受到局部强烈加热,可能导致局部化学分解。由于静电和空间位阻效应的变化,预计这种分解会影响 NP 的生长机制。如果假设成立,通过改变入射微波的幅度来分解 IL 和使 NP 不稳定应该是可能的。换句话说,通过避免 IL 的分解,也应该有可能控制颗粒聚集。

实验

使用模型体系(即[BMIm][BF]和 Ru(CO))进行了一系列比较研究。系统地控制变量。MWI 后,确定了 NPs 胶体稳定性的降低。

发现

在通过脱羰作用形成 Ru NPs 时,已经证明了入射微波强度、IL 化学分解和颗粒聚集引发之间的关联。还证实了可以加速或缓解分解和聚集的条件。

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