F. Alvarez scite author profile

The electronic structure of nitrogen-containing diamondlike films prepared by sputtering was determined by photoelectron spectroscopy. The N 1s core-level spectra are constituted by two peaks at 400.5 and 398.2 eV associated with substitutional N sp 2 in aromatic rings and N bonded to C sp 3 , respectively. On increasing N, the top of the valence band suffers profound changes. The new features are identified by a comparison of the experimental spectra with theoretically calculated density of states of nitrogen-containing graphite and C 3 N 4 structures. ͓S0163-1829͑98͒04004-1͔

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Nitrogen substitution of carbon in graphite: Structure evolution toward molecular forms

Santos

Alvarez

1998

Phys. Rev. B

153

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A series of randomly nitrogen-substituted carbon clusters in graphitelike structures, containing up to 96 carbon atoms, is theoretically investigated through semiemipirical pseudopotential techniques. The evolution of conformation and electronic structure is obtained as a function of nitrogen content. Results from semiempirical geometry optimizations reveal that the clusters are planar for nitrogen concentrations up to ͓N͔/͓C͔ϳ20%. Above this concentration, buckling develops in the clusters. One of the characteristics of these corrugated clusters is the presence of carbon dangling bonds. Chemical stabilization imposes that these structures evolve to either a three-dimensional, fully covalent carbon nitride network, or to molecular forms. Among the welldefined molecular structures that could develop in amorphous carbon nitride, we found nanotubules and a molecular cage of elemental compositions CN and C 3 N 4 , respectively.

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Surface and Electronic Structure of Titanium Dioxide Photocatalysts

Bilmes¹,

Mandelbaum²,

Alvarez³

et al. 2000

J. Phys. Chem. B

161

100

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TiO 2 films prepared by sol-gel route are active photocatalysts for the oxidation of organics in photoelectrochemical cells. The as-grown films for photocatalysis applications and those exposed to Ar + or H 2 + +Ar + ion bombardment are characterized by different spectroscopic methods, such as X-ray diffraction (XRD), atomic force microscopy (AFM), UV-vis transmittance, photothermal deflection spectroscopy (PDS) and X-ray photoelectron spectroscopy (XPS), as well as by conductance. This material has defects associated with oxygen vacancies produced during the sample preparation which support nondissociative adsorption of O 2 when films are exposed to air. Charge transfer from reduced Ti species to adsorbed dioxygen leads to Ti-O 2surface complexes that are partially removed by heating at 200 °C, and fully removed after 30 min ion bombardment. By comparison with the relatively well-understood structural defects of bombarded TiO 2 we arise to a quite complete structural model of the as grown material which corresponds to an amorphous semiconductor possessing relative low disorder and density of states as compared with a pure amorphous material. These TiO 2 films are modeled as low size crystalline domain embedded in an amorphous matrix whose electronic structure exhibit exponential band tails and a narrow band close to the conduction band. The latter is fully or partially occupied depending on the presence of adsorbed electron scavengers such as dioxygen.

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Effects of increasing nitrogen concentration on the structure of carbon nitride films deposited by ion beam assisted deposition

Hammer¹,

Victoria²,

Alvarez³

2000

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Incorporation of nitrogen in carbon nanotubes

Droppa

Hammer

Carvalho

et al. 2002

Journal of Non-Crystalline Solids

101

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F. Alvarez

Electronic structure of nitrogen-carbon alloys(a−CNx)determined by photoelectron spectroscopy

Nitrogen substitution of carbon in graphite: Structure evolution toward molecular forms

Surface and Electronic Structure of Titanium Dioxide Photocatalysts

Effects of increasing nitrogen concentration on the structure of carbon nitride films deposited by ion beam assisted deposition

Incorporation of nitrogen in carbon nanotubes

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