通过火花烧蚀和飞行中的金属有机前驱体分解来设计Pd-Ga合金纳米颗粒

IF 2.9 3区环境科学与生态学 Q2 ENGINEERING, CHEMICAL

Journal of Aerosol Science Pub Date : 2025-09-15 DOI:10.1016/j.jaerosci.2025.106698

Marie Bermeo , Markus Snellman , Linnéa Jönsson , Thomas Krinke , Zhongshan Li , Knut Deppert , Maria E. Messing

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引用次数: 0

摘要

采用火花烧蚀与下游注入金属有机前驱体相结合的方法制备了具有可调成分的Pd-Ga合金纳米颗粒。这种双工艺方法可以通过调节前驱体流速和烧结温度来控制纳米颗粒的组成和形态。在较低的前驱体流量下，形成均匀的Pd-Ga纳米颗粒，表现出稳定的Pd5Ga2和Pd2Ga相。HRTEM和STEM-EDX分析表明，随着前驱体供应的增加，Ga掺入加剧，导致结构转变，相偏析，形成具有非晶富Ga域的PdGa主导相，影响纳米颗粒的形状和结晶度。这一过程为在飞行中使用低熔点材料定制合金成分开辟了途径。

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Engineered Pd-Ga alloy nanoparticles through spark ablation and in-flight metal-organic precursor decomposition

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Engineered Pd-Ga alloy nanoparticles through spark ablation and in-flight metal-organic precursor decomposition

Pd-Ga alloy nanoparticles with tunable compositions were produced by combining spark ablation with a downstream injection of a metal-organic precursor. This dual-process approach enables control over nanoparticle composition and morphology by adjusting precursor flow rate and sintering temperature. At lower precursor flows, uniform Pd-Ga nanoparticles form, exhibiting stable Pd₅Ga₂ and Pd₂Ga phases. HRTEM and STEM-EDX analyses reveal that as precursor supply increases, Ga incorporation intensifies, leading to structural transitions, phase segregation, and the formation of PdGa dominated phases with amorphous Ga-rich domains, influencing nanoparticle shape and crystallinity. This process unlocks pathways for tailoring alloy compositions in-flight with low-melting point materials.

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来源期刊

Journal of Aerosol Science 环境科学-工程：化工

CiteScore

8.80

自引率

8.90%

发文量

127

审稿时长

35 days

期刊介绍： Founded in 1970, the Journal of Aerosol Science considers itself the prime vehicle for the publication of original work as well as reviews related to fundamental and applied aerosol research, as well as aerosol instrumentation. Its content is directed at scientists working in engineering disciplines, as well as physics, chemistry, and environmental sciences. The editors welcome submissions of papers describing recent experimental, numerical, and theoretical research related to the following topics: 1. Fundamental Aerosol Science. 2. Applied Aerosol Science. 3. Instrumentation & Measurement Methods.