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A single-wall carbon nanotube film was deposited by the sequential deposition of positively charged single-wall carbon nanotube with poly diallyldimethylammonium and negatively charged single-wall nanotube with poly sodium 4-styrenesulfonate.
Then, a high-κ Ta2O5 film with a thickness (tTa2O5) of approximately equal to 7 nm was then deposited by an e-beam evaporator, followed by the sequential deposition of a thin (approximately equal to 3 nm) interfacial layer of titanium (Ti) and approximately equal to 200-nm-thick W layer as a TE by radio-frequency (rf) sputtering.
Then, a high-κ Ta2O5 film with a thickness ( t Ta 2 O 5 ) of approximately equal to 7 nm was deposited by an e-beam evaporator, followed by the sequential deposition of a thin (approximately equal to 3 nm) interfacial layer of titanium (Ti) and approximately equal to 200-nm-thick W layer as a TE by radio-frequency (rf) sputtering.
The sensor has been fabricated by the sequential deposition of thin layers of glue and CNT nanopowder on a paper substrate.
These hybrid films were formed by the sequential deposition of poly(diallyldimethylammonium) chloride (PDDA) stabilized Au-nanoparticles (NPs) and transition metal substituted POMs, and were employed as electrocatalysts for the oxygen reduction reaction (ORR).
In this scenario, layer-by-layer (LbL) thin film deposition appears a very promising technique, since it provides an unprecedented control of film thickness at molecular and nanometric scales by the sequential deposition of multifunctional complementary materials via different types of intermolecular interactions.
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Measurements by transmission electron microscopy and X-ray photoelectron spectroscopy confirmed PDA deposition on MWCNTs, and assessments by UV vis spectroscopy indicated the sequential deposition of PLL and CNT@PDA in a linear growth of (PLL-CNT@PDA) films.
In the sequential deposition process, by performing steps of rolling and linear motion, the particles move along the steepest descent in a landscape formed by the boundaries and previously deposited particles.
The Layer-by-Layer (LbL) deposition procedure is a versatile technique, based on the sequential deposition of complementary molecular species on colloidal surfaces.
The synthesis of those structures involves the sequential deposition of a sacrificial silica layer and a titania shell around well-defined gold nanoparticles followed by removal of the silica via NaOH etching.
The one-step deposition method is found easier to control and more promising than the sequential deposition methods.
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