This search combines search strings from the content search (i.e. "Full Text", "Author", "Title", "Abstract", or "Keywords") with "Article Type" and "Publication Date Range" using the AND operator.
Beilstein J. Nanotechnol. 2012, 3, 597–619, doi:10.3762/bjnano.3.70
Figure 1: Illustration of FEBID. Precursor molecules (here: organometallic complex; blue: metal, green: organ...
Figure 2: Single-species growth rate calculated for the precursor Me3Pt(IV)CpMe assuming three different elec...
Figure 3: Molecular models of octanol (left) and Co2(CO)8 (right). Rendered using Jmol.
Figure 4: Simulation of concentration of different elements in FEBID structure under parallel use of Co2(CO)8...
Figure 5: Molecular models of Si5H12 (left) and Me3Pt(IV)CpMe (right). Rendered using Jmol.
Figure 6: Elemental composition of various Pt–Si deposits as determined by EDX according to [28]. The data were t...
Figure 7: Dependence of the room temperature resistivity on the Si/Pt ratio in the FEBID samples according to ...
Figure 8: Temperature-dependent conductivity of the Pt–Si FEBID samples represented as ln σ vs T−a to facilit...
Figure 9: TEM electron diffraction pattern of samples on carbon membrane before (left) and after (right) post...
Figure 10: Temperature-dependent conductivity and Hall effect as a function of the applied magnetic field for ...
Figure 11: Dependence of the yield ratio for the precursors Co2(CO)8 and Me3Pt(IV)CpMe on the dwell time withi...
Figure 12: Phase diagram of the transport regimes of granular metals. In the insulating regime for g < gc ther...
Figure 13: Temperature-dependent conductivity of Pt–C FEBID structures that have been exposed to different pos...
Figure 14: Temperature-dependent conductivity of Pt–C FEBID structures that have been exposed to different pos...
Figure 15: Calculated gauge factor κ as a function of intergrain coupling strength (bottom axis) and metal vol...
Figure 16: Left: Strain-resistance effect of a Pt–C nanogranular sensor element measured on a test cantilever ...