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Beilstein J. Nanotechnol. 2021, 12, 257–269, doi:10.3762/bjnano.12.21
Figure 1: Overview of previously reported FEBID gold precursors, Au(acac)Me2 [10,20-22], Au(tfac)Me2 [21,23-25], Au(hfac)Me2 [19], Au...
Figure 2: Substrate heater and precursor supply system of the deposition setup. Only the conical hole in the ...
Figure 3: The selected Au(NHC)X complexes studied and their molecular formulae.
Scheme 1: Synthesis routes for 1–7.
Figure 4: SEM images, tilted by 50°, of 250 × 250 nm2 square deposits made using a beam energy and current of...
Figure 5: Possible fragmentations of (N,Et)AuCl (6), with the loss of Cl and a volatile fragment 6b, and the ...
Figure 6: Typical SEM images, tilted by 50°, of pillar arrays deposited from all precursors. (a) 1 (Cl,Me)AuC...
Figure 7: Calculated volume of pillars grown using a 5 kV, 40 pA beam, as a function of the electron dose giv...
Beilstein J. Nanotechnol. 2020, 11, 1789–1800, doi:10.3762/bjnano.11.161
Figure 1: Thermogravimetric analysis (TGA) and 1st derivative DTG of (a) Pt(CO)2Cl2 and (b) Pt(CO)2Br2.
Figure 2: Isothermal TGA traces plotted as a function of temperature and time for (a,b) Pt(CO)2Cl2 and (c,d) ...
Figure 3: Chamber pressure after opening and closing the GIS valve containing a) Pt(CO)2Cl2 and b) MeCpPtMe3.
Figure 4: Pillars deposited at 38 pA. a) 35° tilt image of pillars deposited from top to bottom and from left...
Figure 5: Pillar height a) and volume b) as functions of the electron dose (total number of incident electron...
Figure 6: Comparison of pillars grown in experiment 2 from all three precursors a) and d) MeCpPtMe3, b) and e...
Figure 7: Pillar height a) and volume b) as functions of the number of electrons deposited at 38 pA from MeCp...