TiO2–Al2O3 binary mixed oxide surfaces for photocatalytic NOx abatement

Applied Surface Science ◽

10.1016/j.apsusc.2014.02.065 ◽

2014 ◽

Vol 318 ◽

pp. 142-149 ◽

Cited By ~ 25

Author(s):

Asli Melike Soylu ◽

Meryem Polat ◽

Deniz Altunoz Erdogan ◽

Zafer Say ◽

Cansu Yıldırım ◽

...

Keyword(s):

Mixed Oxide ◽

Oxide Surfaces ◽

Nox Abatement

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Energy and electron transfer reactions on silica gel and titania–silica mixed oxide surfaces

Research on Chemical Intermediates ◽

10.1007/s11164-019-03901-5 ◽

2019 ◽

Vol 45 (8) ◽

pp. 4205-4223 ◽

Cited By ~ 1

Author(s):

Anisoara Vancea ◽

Iain Kirkpatrick ◽

David R. Worrall ◽

Siân L. Williams

Keyword(s):

Electron Transfer ◽

Silica Gel ◽

Mixed Oxide ◽

Transfer Reactions ◽

Oxide Surfaces ◽

Electron Transfer Reactions ◽

Energy And Electron Transfer

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Mixed Oxide Surfaces: Ultrathin Films of CaxMg(1-x)O

The Journal of Physical Chemistry B ◽

10.1021/jp973169g ◽

1998 ◽

Vol 102 (4) ◽

pp. 693-700 ◽

Cited By ~ 14

Author(s):

M. J. Iedema ◽

N. Kizhakevariam ◽

J. P. Cowin

Keyword(s):

Mixed Oxide ◽

Ultrathin Films ◽

Oxide Surfaces

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The Role of Amine Surface Density in Carbon Dioxide Adsorption on Functionalized Mixed Oxide Surfaces

ChemSusChem ◽

10.1002/cssc.201100244 ◽

2011 ◽

Vol 4 (11) ◽

pp. 1671-1678 ◽

Cited By ~ 44

Author(s):

Pria D. Young ◽

Justin M. Notestein

Keyword(s):

Carbon Dioxide ◽

Mixed Oxide ◽

Surface Density ◽

Oxide Surfaces ◽

Carbon Dioxide Adsorption

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Use of catalytic reactions to probe Mg-Al mixed oxide surfaces

Catalysis Letters ◽

10.1007/bf00815418 ◽

1994 ◽

Vol 25 (1-2) ◽

pp. 87-95 ◽

Cited By ~ 12

Author(s):

Christopher T. Fishel ◽

Robert J. Davis

Keyword(s):

Mixed Oxide ◽

Catalytic Reactions ◽

Oxide Surfaces

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Interaction of Amino Acids and Silica-Containing Mixed-Oxide Surfaces in Aqueous Solutions

Chemistry Letters ◽

10.1246/cl.1989.209 ◽

1989 ◽

Vol 18 (2) ◽

pp. 209-212 ◽

Cited By ~ 3

Author(s):

Shoji Kaneko ◽

Masatsugu Mikawa ◽

Sei-ichi Yamagiwa

Keyword(s):

Amino Acids ◽

Aqueous Solutions ◽

Mixed Oxide ◽

Oxide Surfaces

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Sub-monolayer control of the growth of oxide films on mesoporous materials

Journal of Materials Chemistry A ◽

10.1039/c8ta05431b ◽

2018 ◽

Vol 6 (36) ◽

pp. 17548-17558 ◽

Cited By ~ 3

Author(s):

Zhihuan Weng ◽

Zhi-hui Chen ◽

Xiangdong Qin ◽

Francisco Zaera

Keyword(s):

Thin Films ◽

Atomic Layer Deposition ◽

Mesoporous Materials ◽

Mixed Oxide ◽

Oxide Films ◽

Atomic Layer ◽

Oxide Surfaces ◽

Oxide Thin Films ◽

Layer Deposition

Mixed oxide surfaces were developed via the atomic layer deposition of a variety of oxide thin films on mesoporous materials.

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ChemInform Abstract: Mixed Oxide Surfaces: Ultrathin Films of CaxMg(1-x)O.

ChemInform ◽

10.1002/chin.199820024 ◽

2010 ◽

Vol 29 (20) ◽

pp. no-no

Author(s):

M. J. IEDEMA ◽

N. KIZHAKEVARIAM ◽

J. P. COWIN

Keyword(s):

Mixed Oxide ◽

Ultrathin Films ◽

Oxide Surfaces

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The Nature of Oxide Surfaces: Topographic and Electronic Structure

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100150666 ◽

1993 ◽

Vol 51 ◽

pp. 966-967

Author(s):

Dawn A. Bonnell ◽

Yong Liang

Keyword(s):

Transition Metal Oxides ◽

Electronic Structures ◽

Recent Progress ◽

Spatial Localization ◽

Level Of Detail ◽

Scanning Tunneling ◽

Oxide Surfaces ◽

Tunneling Microscopy ◽

Considerable Effort ◽

Complete Understanding

Recent progress in the application of scanning tunneling microscopy (STM) and tunneling spectroscopy (STS) to oxide surfaces has allowed issues of image formation mechanism and spatial resolution limitations to be addressed. As the STM analyses of oxide surfaces continues, it is becoming clear that the geometric and electronic structures of these surfaces are intrinsically complex. Since STM requires conductivity, the oxides in question are transition metal oxides that accommodate aliovalent dopants or nonstoichiometry to produce mobile carriers. To date, considerable effort has been directed toward probing the structures and reactivities of ZnO polar and nonpolar surfaces, TiO2 (110) and (001) surfaces and the SrTiO3 (001) surface, with a view towards integrating these results with the vast amount of previous surface analysis (LEED and photoemission) to build a more complete understanding of these surfaces. However, the spatial localization of the STM/STS provides a level of detail that leads to conclusions somewhat different from those made earlier.

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