Pillar Growth by Focused Electron Beam-Induced Deposition Using a Bimetallic Precursor as Model System: High-Energy Fragmentation vs. Low-Energy Decomposition.
Robert WinklerMichele Brugger-HatzlFabrizio PorratiDavid KuhnessThomas MairhoferLukas Matthias SeewaldGerald KothleitnerMichael HuthHarald PlankSven BarthPublished in: Nanomaterials (Basel, Switzerland) (2023)
Electron-induced fragmentation of the HFeCo 3 (CO) 12 precursor allows direct-write fabrication of 3D nanostructures with metallic contents of up to >95 at %. While microstructure and composition determine the physical and functional properties of focused electron beam-induced deposits, they also provide fundamental insights into the decomposition process of precursors, as elaborated in this study based on EDX and TEM. The results provide solid information suggesting that different dominant fragmentation channels are active in single-spot growth processes for pillar formation. The use of the single source precursor provides a unique insight into high- and low-energy fragmentation channels being active in the same deposit formation process.