2 article(s) from Drost, Martin
Figure 1: (a) Scheme of the electron beam induced deposition (EBID) process with Fe(CO)5 as precursor molecul...
Figure 2: SEM micrographs of Fe EBID deposits before and after the chemical vapor deposition (CVD) experiment...
Figure 3: SEM micrographs of Fe EBID deposits before and after the chemical vapor deposition (CVD) experiment...
Figure 4: (a) 6 × 6 point matrix of Fe deposits which were fabricated via EBID (0.8 nC) with subsequent ≈105 ...
Figure 5: Transmission electron microscope (TEM) micrographs of carbon nanotubes (CNTs) extracted from the sa...
Figure 6: SEM micrographs of carbon nanotubes (CNTs) grown by chemical vapor deposition (CVD) on Fe nanostruc...
Figure 7: Carbo nanotube (CNT) growth at different temperatures on 10 × 10 µm2 EBID Fe deposits fabricated wi...
Figure 8: Lifted-up carbon nanotube (CNT) forest structures produced on various Fe nanostructures. (a), (b) a...
Figure 9: Scheme of growth mechanism of the lifted-up carbon nanotube nanostructure.
Figure 10: (a) SEM micrograph of a 4 × 4 µm2 Co structure fabricated via EBID (1.1 C/cm²) with an autocatalyti...
Figure 11: Scheme of the chemical vapor deposition apparatus with all important parts indicated.
Figure 1: Fabrication and secondary/tertiary growth of nanostructures. The deposits can be fabricated by elec...
Figure 2: SEM micrograph of square EBID structures of different sizes and primary electron doses (as indicate...
Figure 3: Nanostructures prepared by EBID plus autocatalytic growth using Co(CO)3NO on Si3N4 with different g...
Figure 4: (a) Co L-edge X-ray absorption spectra of deposits prepared on a Si3N4 membrane by EBID (0.2 C/cm2)...
Figure 5: Evaluation of the X-ray absorption data for the growth of Co-containing deposits by EBID plus autoc...
Figure 6: Optical density at the Fe L3 edge at 708.7 eV (left vertical axis) and average thickness of the iro...
Figure 7: Optical density at the Co L3 edge and apparent cobalt thickness of CoOxNyCz layers grown autocataly...