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Beilstein J. Nanotechnol. 2019, 10, 428–441, doi:10.3762/bjnano.10.42
Figure 1: Ag dose (left) and film thickness (right) versus rotations.
Figure 2: Film thickness versus RBS thickness (see text for details). Blue and red squares data are drawn fro...
Figure 3: GIXRD spectra of pure and NCPC samples: left) the 2θ region of the main parylene peak; right) the e...
Figure 4: Roughness (Ra) as a function of the thickness. The red curve is the trend for pure parylene C films...
Figure 5: FTIR spectra of pure parylene C (samples O and K) and NCPCs (samples A to F).
Figure 6: a) Dielectric constant ε’ as a function of the frequency; b) normalized dielectric constant ε’/ε’HF...
Figure 7: The amount of silver-oxide nanoparticles as a function of their average size. Additional informatio...
Figure 8: Frequency dependence of the dissipation factor for pure parylene C and NCPC samples.
Figure 9: Electrical conductivity of pure parylene C and NCPCs.
Figure 10: Gain in the gate insulation capacitance by replacing conventionally processed parylene C (sample O)...
Figure 11: Depostion of nanocomposite–parylene C (NCPC) by a combined CVD and RF sputtering technique.