Engineered Pd-Ga alloy nanoparticles through spark ablation and in-flight metal-organic precursor decomposition
Journal article, 2026
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.
TMGa
Nanoparticles
Pd-Ga
Spark ablation
Metal-organic
Author
Marie Bermeo
Lund University
Markus Snellman
Lund University
Linnéa Jönsson
Lund University
Thomas Krinke
Lund University
Zhongshan Li
Lund University
K. Deppert
Lund University
Maria Messing
Lund University
Chalmers, Microtechnology and Nanoscience (MC2)
Journal of Aerosol Science
0021-8502 (ISSN) 18791964 (eISSN)
Vol. 191 106698Subject Categories (SSIF 2025)
Materials Chemistry
Condensed Matter Physics
DOI
10.1016/j.jaerosci.2025.106698