Scandium oxide deposited by high-pressure sputtering for memory devices: Physical and interfacial properties

Feijoo, P. C.; Prado, A. del; Toledano-Luque, M.; Andrés, E. San; Lucı́a, M. L.

doi:10.1063/1.3354096

Cited by 19 publications

(15 citation statements)

References 31 publications

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“…Thus, the flatband voltage of the curve measured from inversion to accumulation is shifted because positive charges that are trapped in the chemical oxide when the gate bias is negative. This agrees with the fact that the chemical oxide presents a density of defects higher than the other analyzed interfaces [11].…”

Section: Resultssupporting

confidence: 87%

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Electrical and chemical characterization of high pressure sputtered scandium oxide for memory applications

Feijoo

Toledano-Luque

Prado

et al. 2011

Proceedings of the 8th Spanish Conference on Electron Devices, CDE'2011

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Scandium oxide was deposited by means of high pressure sputtering in the same conditions on differently prepared (100) Si substrates: chemical oxide, nitrided Si and deposited silicon nitride. Time-of-flight secondary ion mass spectroscopy and X-ray photoemission spectroscopy show that polycrystalline Sc 2 O 3 films were grown with a composition which is constant with depth. According to Capacitance-Voltage hysteresis measurements, nitrided Si or deposited SiN x proved to present a lower density of defects in the interface as compared to RCA native oxide.

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Section: Resultssupporting

confidence: 87%

“…Taking into account only the Sc 2 O 3 contribution, the O to Sc ratio is 1.4 ± 0.1 in all cases. This is in agreement with GIXRD measurements, which showed a cubic bixbyite Sc 2 O 3 phase [11]. Capacitance-voltage hysteresis curves of the MOS capacitors are shown in fig.…”

Section: Resultssupporting

confidence: 85%

Electrical and chemical characterization of high pressure sputtered scandium oxide for memory applications

Feijoo

Toledano-Luque

Prado

et al. 2011

Proceedings of the 8th Spanish Conference on Electron Devices, CDE'2011

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“…The rf power was chosen as 40 W since it was the rf power used in previous works for the scandium oxide. 18 This power was selected in order to obtain a reasonably high growth rate while minimizing substrate damage.…”

Section: A Structural Characterizationmentioning

confidence: 99%

“…1,17 This work deals with electrical and structural analysis of gadolinium oxide films grown on Si by means of high pressure sputtering (HPS). 18 This system was demonstrated to be adequate for other high j dielectrics growth. [19][20][21] During the deposition process, the pressure is maintained in the 0.2-2 mbar range, about 3 orders of magnitude higher than in a conventional sputtering system.…”

Section: Introductionmentioning

confidence: 99%

Optimization of gadolinium oxide growth deposited on Si by high pressure sputtering

Feijoo

Pampillón

Andrés

2012

Journal of Vacuum Science &Amp; Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phen

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Articles you may be interested inOptimization of in situ plasma oxidation of metallic gadolinium thin films deposited by high pressure sputtering on silicon J.Embedded argon as a tool for sampling local structure in thin plasma deposited aluminum oxide films Structural, optical, and electrical characterization of gadolinium oxide films deposited by low-pressure metalorganic chemical vapor deposition High j gadolinium oxide thin layers were deposited on silicon by high-pressure sputtering (HPS). In order to optimize the properties for microelectronics applications, different deposition conditions were used. Ti (scavenger) and Pt (nonreactive) were e-beam evaporated to fabricate metal-insulator-semiconductor (MIS) devices. According to x-ray diffraction, x-ray photoelectron spectroscopy, and Fourier-transform infrared spectroscopy, polycrystalline stoichiometric Gd 2 O 3 films were obtained by HPS. The growth rate decreases when increasing the deposition pressure. For relatively thick films (40 nm), a SiO x interface as well as the formation of a silicate layer (GdSiO x ) is observed. For thinner films, in Ti gated devices the SiO x interface disappears but the silicate layer extends over the whole thickness of the gadolinium oxide film. These MIS devices present lower equivalent oxide thicknesses than Pt gated devices due to interface scavenging. The density of interfacial defects D it is found to decrease with deposition pressure, showing a reduced plasma damage of the substrate surface for higher pressures. MIS with the dielectric deposited at higher pressures also present lower flatband voltage shifts DV FB in the C HF -V G hysteresis curves.

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“…When we work in the high pressure range (~1 mbar), the atoms that are sputtered from the target with very high energy, collide with the gas atoms and reach the sample thermalized [7]. Therefore, we can deposit a-Si:H layers without sample damage, and form a high quality heterojunction between amorphous and crystalline silicon.…”

Section: Introductionmentioning

confidence: 99%

Hydrogenated amorphous silicon deposited by high pressure sputtering for HIT solar cells

Garcia-Hemansanz

García-Hemme

Pastor

et al. 2013

2013 Spanish Conference on Electron Devices

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Hydrogenated amorphous silicon thin films were deposited using a high pressure sputtering (HPS) system. In this work, we have studied the composition and optical properties of the films (band-gap, absorption coefficient), and their dependence with the deposition parameters. For films deposited at high pressure (1 mbar), composition measurements show a critical dependence of the purity of the films with the RF power. Films manufactured with RF-power above 80W exhibit good properties for future application, similar to the films deposited by CVD (Chemical Vapor Deposition) for hydrogenated amorphous silicon.

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Scandium oxide deposited by high-pressure sputtering for memory devices: Physical and interfacial properties

Cited by 19 publications

References 31 publications

Electrical and chemical characterization of high pressure sputtered scandium oxide for memory applications

Electrical and chemical characterization of high pressure sputtered scandium oxide for memory applications

Optimization of gadolinium oxide growth deposited on Si by high pressure sputtering

Hydrogenated amorphous silicon deposited by high pressure sputtering for HIT solar cells

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