In situ observation of self-assembled Fe13Ge8 nanowires growth on anisotropic Ge (1 1 0) surface

Self-assembled iron germanide nanowires (NWs) were grown by directly depositing Fe onto a Ge (1 1 0) substrate, in an in situ ultra-high vacuum transmission electron microscope from 430 to 500 °C. All observed NWs had a similar length/width aspect ratio (∼8:1) at all deposition temperatures, as well as the same elongation orientation with respect to the underlying Ge (1 1 0) substrate. The growth dynamics was investigated by real time observations of NWs growth at elevated temperatures. It is elucidated that the formation of NWs in similar shape at all deposited temperatures is attributed to the similar activation energy barriers in length and width of NWs, which can result in the constant growth rate independent of growth temperatures. Furthermore, the difference in pre-exponential factor along the length and width of growing islands arose due to the anisotropic constraint of the Ge (1 1 0) substrate, leading to the unique elongation of NWs. This growth dynamics suggests the possibility of uniform control of the morphology of self-assembled NWs, as well as other morphologies of bottom-up fabricated devices, at different deposition temperatures.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Epitaxial Fe13Ge8 nanowries growth and shape evolution on Ge (1 1 0) studied by in situ UHV-TEM. ► Single type of morphology and unique orientation of nanowires formed at elevated temperatures. ► Uniform control of the nanowires morphology at different temperatures can be succeeded.