Add to ORKGThe metalorganic precursor cyclopentadienylethyl(dicarbonyl)ruthenium (CpRu(CO)2Et) was used to develop an atomic layer deposition (ALD) process for ruthenium. O2 gas and O2 plasma were employed as reactants. For both processes, thermal and plasma-assisted ALD, a relatively high growth-per-cycle of - 1 Å was obtained. The Ru films were dense and polycrystalline, regardless of the reactant, yielding a resistivity of - 16 µO¿cm. The O2 plasma not only enhanced the Ru nucleation on the TiN substrates but also led to an increased roughness compared to thermal ALD
Thin ruthenium oxide film deposition on 100 nm SiO2 substrate by thermal atomic layer deposition (AL...
Ruthenium (Ru) and ruthenium oxide (RuO<sub>2</sub>) thin films were grown by atomic layer depositio...
A plasma enhanced ALD process for Ru using RuO4 and H-2-plasma is reported at sample temperatures ra...
The metalorganic precursor cyclopentadienylethyl(dicarbonyl)ruthenium (CpRu(CO)2Et) was used to deve...
The metalorganic precursor cyclopentadienylethyl(dicarbonyl)ruthenium (CpRu(CO)(2)Et) was used to de...
Ruthenium (Ru) is regarded as an electrode candidate on ultrahigh-k SrTiO3 dielectric films for futu...
A thermal (RuO4/H-2-gas) and a plasma enhanced (RuO4/H-2-plasma) atomic layer deposition (ALD) proce...
Ru films were grown by atomic layer deposition in the temperature range of 275-350°C using (ethylcyc...
In this paper we report a low temperature (100 degrees C) ALD process for Ru using the RuO4-precurso...
The process characteristics, the surface chemistry, and the resulting film properties of Ru deposite...
Atomic layer deposition (ALD) of ruthenium is of interest for various applications in nanoelectronic...
In this study, the growth characteristics and the film properties of Ru and RuO2 thin films were sys...
Metal-organic atomic layer deposition (ALD) of ruthenium has been investigated by both thermal and r...
By using remote plasma atomic layer deposition (ALD), ruthenium thin films were deposited on SiO2 us...
Ruthenium thin films were grown by thermal and plasma-enhanced atomic layer deposition (PE-ALD) usin...
Thin ruthenium oxide film deposition on 100 nm SiO2 substrate by thermal atomic layer deposition (AL...
Ruthenium (Ru) and ruthenium oxide (RuO<sub>2</sub>) thin films were grown by atomic layer depositio...
A plasma enhanced ALD process for Ru using RuO4 and H-2-plasma is reported at sample temperatures ra...
The metalorganic precursor cyclopentadienylethyl(dicarbonyl)ruthenium (CpRu(CO)2Et) was used to deve...
The metalorganic precursor cyclopentadienylethyl(dicarbonyl)ruthenium (CpRu(CO)(2)Et) was used to de...
Ruthenium (Ru) is regarded as an electrode candidate on ultrahigh-k SrTiO3 dielectric films for futu...
A thermal (RuO4/H-2-gas) and a plasma enhanced (RuO4/H-2-plasma) atomic layer deposition (ALD) proce...
Ru films were grown by atomic layer deposition in the temperature range of 275-350°C using (ethylcyc...
In this paper we report a low temperature (100 degrees C) ALD process for Ru using the RuO4-precurso...
The process characteristics, the surface chemistry, and the resulting film properties of Ru deposite...
Atomic layer deposition (ALD) of ruthenium is of interest for various applications in nanoelectronic...
In this study, the growth characteristics and the film properties of Ru and RuO2 thin films were sys...
Metal-organic atomic layer deposition (ALD) of ruthenium has been investigated by both thermal and r...
By using remote plasma atomic layer deposition (ALD), ruthenium thin films were deposited on SiO2 us...
Ruthenium thin films were grown by thermal and plasma-enhanced atomic layer deposition (PE-ALD) usin...
Thin ruthenium oxide film deposition on 100 nm SiO2 substrate by thermal atomic layer deposition (AL...
Ruthenium (Ru) and ruthenium oxide (RuO<sub>2</sub>) thin films were grown by atomic layer depositio...
A plasma enhanced ALD process for Ru using RuO4 and H-2-plasma is reported at sample temperatures ra...