S. Gallardo scite author profile

S. Gallardo

5Publications

85Citation Statements Received

21Citation Statements Given

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Affiliations

Center for Research and Advanced Studies of the National Polytechnic Institute, Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute, University of Santiago Chile

Publications

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Photochemistry and Radiation Chemistry of Colloidal Semiconductors 34. Properties of Q‐PbS

Gallardo

Gutiérrez

Henglein

et al. 1989

Ber Bunsenges Phys Chem

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Precipitation of lead ions by hydrogen sulfide in the presence of poly(vinyl alcohol) in aqueous or methanolic solution yields Q‐PbS particles (quantized particles) which have a structured absorption spectrum. The particles have a rod‐like or spherical shape (size quantization mainly in two or three dimensions, respectively). PbS with a structured absorption can also be made in acetonitrile using poly(ethylene oxide) as stabilizer. PbS stabilized by sodium polyphosphate has a structureless absorption spectrum. — Depending on the method of preparation and surface modification after preparation PbS samples fluorescing in the red or/and infrared are obtained. Methyl viologen generally quenches but can in certain cases promote the fluorescence when it is present in low concentration. Oxygen quenches when the colloid is stabilized by polyphosphate. — The rate of the photoanodic dissolution in the presence of air is increased by methyl viologen. Half reduced methyl viologen does not transfer an electron to Q‐PbS but can do so in the case of larger particles. — Illumination under argon leads to increased Ostwald ripening of the particles. However, when sulfite is present in the deaerated solution, photoanodic dissolution takes place. — Attack by hydroxyl radicals generated radiolytically leads to Pb2+ + SO2−4. The fluorescence of a Q‐PbS particle is efficiently decreased after the attack by a single OH radical (i.e. after injection of one positive hole). — Single electron transfer from 1‐hydroxy methyl ethyl radicals, (CH3)2COH, to Q‐PbS also leads to a decrease in fluorescence. These effects are attributed to interactions of the charge carriers deposited by the radicals on the colloidal particles with the exitonic state produced by light absorption. — Accumulated electron transfer to PbS‐particles from organic radicals yields lead metal and organic sulfur compounds. In the beginning of this process, the fluorescence strongly increases (10% quantum yield) which is explained by destruction of surface defect states.

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In situ monitoring of the 2D–3D growth-mode transition in In0.3Ga0.7As/GaAs (001) by reflectance-difference spectroscopy

Medel‐Ruíz¹,

Lastras‐Martínez²,

Balderas‐Navarro³

et al. 2004

Applied Surface Science

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Nitrogen Incorporation in Al₂O₃ Thin Films Prepared by Pulsed Ultrasonic Sprayed Pyrolysis

et al. 2009

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The electrical characteristics and the chemical composition profiles determined by XPS and SIMS for aluminum oxide thin films deposited by pulsed ultrasonic spray pyrolysis are reported. The films were deposited on c-Si at 550 ºC using a chemical solution of aluminum acetylacetonate as source of aluminum and N,NDimethylformamide as solvent, in addition a H 2 O-NH 4 OH mist was supplied simultaneously during deposition to improve the overall properties of these films. The results show that there is nitrogen incorporation in the films at the interface with the Si substrate. There is also a clear migration of silicon into the deposited film. The thickness of the films was in the range of 30 nm. Infrared spectroscopy also shows the presence of Si-O bonds. The dielectric constant for these films was higher than 8 and their interface trap density at midgap was in the 10 10 eV -1 cm -2 range.

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Fluorescence quenching in cetyltrimethylammonium chloride micelles and dioctadecyldimethylammonium chloride giant vesicles. A comparison

Lissi

Gallardo

Sepúlveda

1992

Journal of Colloid and Interface Science

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SIMS characterization of segregation in InAs/GaAs heterostructures

Gallardo¹,

Kudriatsev²,

Villegas³

et al. 2008

Applied Surface Science

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S. Gallardo

Photochemistry and Radiation Chemistry of Colloidal Semiconductors 34. Properties of Q‐PbS

In situ monitoring of the 2D–3D growth-mode transition in In0.3Ga0.7As/GaAs (001) by reflectance-difference spectroscopy

Nitrogen Incorporation in Al₂O₃ Thin Films Prepared by Pulsed Ultrasonic Sprayed Pyrolysis

Fluorescence quenching in cetyltrimethylammonium chloride micelles and dioctadecyldimethylammonium chloride giant vesicles. A comparison

SIMS characterization of segregation in InAs/GaAs heterostructures

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S. Gallardo

Photochemistry and Radiation Chemistry of Colloidal Semiconductors 34. Properties of Q‐PbS

In situ monitoring of the 2D–3D growth-mode transition in In0.3Ga0.7As/GaAs (001) by reflectance-difference spectroscopy

Nitrogen Incorporation in Al2O3 Thin Films Prepared by Pulsed Ultrasonic Sprayed Pyrolysis

Fluorescence quenching in cetyltrimethylammonium chloride micelles and dioctadecyldimethylammonium chloride giant vesicles. A comparison

SIMS characterization of segregation in InAs/GaAs heterostructures

Contact Info

Product

Resources

About

Nitrogen Incorporation in Al₂O₃ Thin Films Prepared by Pulsed Ultrasonic Sprayed Pyrolysis