A. M. Nazarov scite author profile

The improvement of subthreshold slope due to impact ionization is compared between "standard" inversion-mode multigate silicon nanowire transistors and junctionless transistors. The length of the region over which impact ionization takes place, as well as the amplitude of the impact ionization rate are found to be larger in the junctionless devices, which reduces the drain voltage necessary to obtain a sharp subthreshold slope. (C) 2010 American Institute of Physics. (doi: 10.1063/1.3358131

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Color control of white photoluminescence from carbon-incorporated silicon oxide

Ishikawa

Vasin

Salonen

et al. 2008

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Color control of the white photoluminescence (PL) from carbon-incorporated silicon oxide is demonstrated. The carbon-incorporated silicon oxide was fabricated by carbonization of porous silicon in acetylene flow (at 650 and 850 °C) followed by wet oxidation (at 650 and 800 °C). It was shown that PL color can be controlled in the range of blue-white and yellow-white by selecting the porosity of starting porous silicon as well as the carbonization and oxidation temperatures. Low-temperature oxidation resulted in bluish light emission in lower porosity series, while high-temperature oxidation promoted yellow-white light emission. The maximal integral intensity of PL was observed after oxidation at 800 °C. It was shown that white PL from carbon-incorporated silicon oxide has blue and yellow-white PL bands originating from different light-emitting centers. The origin of blue PL is attributed to defects in silicon dioxide. Some trap levels at the interface of the carbon clusters and silicon oxide are suggested to be the origin of the yellow-white light emission.

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Light emission and charge trapping in Er-doped silicon dioxide films containing silicon nanocrystals

Nazarov

Sun

Skorupa

et al. 2005

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The processes of electro- (EL) and photoluminescence (PL) and charge trapping in Er-implanted SiO2 containing silicon nanoclusters have been studied. It is shown that in Er-doped SiO2 with an excess of silicon nanoclusters of 10 at. %, a strong energy transfer from silicon nanoclusters results in a ten-fold increase of the PL peak at 1540 nm from Er luminescent centers, whereas the EL is strongly quenched by the excess silicon nanoclusters. It is further shown that the implantation of Er creates in the oxide positive charge traps with a giant cross section (σh0>10−13cm2). Introducing subsequent silicon nanocrystals in the oxide leads to the formation of negative charge traps of a giant cross section (σe0>10−13cm2). The possible reason for the EL quenching in the Er-doped SiO2 by silicon nanoclusters is discussed.

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An ammonia sensor composed of polypyrrole synthesized on reduced graphene oxide by electropolymerization

Tang

Raskin

Kryvutsa

et al. 2020

Sensors and Actuators B: Chemical

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A. M. Nazarov

Reduced electric field in junctionless transistors

Low subthreshold slope in junctionless multigate transistors

Color control of white photoluminescence from carbon-incorporated silicon oxide

Light emission and charge trapping in Er-doped silicon dioxide films containing silicon nanocrystals

An ammonia sensor composed of polypyrrole synthesized on reduced graphene oxide by electropolymerization

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