Zoltán Lábadi
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View article: Electrochromic Efficiency in AxB(1−x)Oy-Type Mixed Metal Oxide Alloys
Electrochromic Efficiency in AxB(1−x)Oy-Type Mixed Metal Oxide Alloys Open
Electrochromic materials have a wide range of energy-effective applications, such as in mirrors, smart windows, automobile sunroofs, and display devices. The electrochromic behavior of mixed metal oxides is focused on in this review. Extra…
View article: Perspective Chapter: Electrochromic Efficiency in TixMe(1-x)Oy Type Mixed Metal-Oxide Alloys
Perspective Chapter: Electrochromic Efficiency in TixMe(1-x)Oy Type Mixed Metal-Oxide Alloys Open
Energy-effective smart windows, mirrors, display devices, and automobile sunroofs have been considered as applications of electrochromic materials. This chapter focuses on the electrochromic behavior of Ti-based mixed metal oxides. Transit…
View article: Compositional Optimization of Sputtered SnO2/ZnO Films for High Coloration Efficiency
Compositional Optimization of Sputtered SnO2/ZnO Films for High Coloration Efficiency Open
We performed an electrochromic investigation to optimize the composition of reactive magnetron-sputtered mixed layers of zinc oxide and tin oxide (ZnO-SnO2). Deposition experiments were conducted as a combinatorial material synthesis appro…
View article: Compositional Optimization of Sputtered SnO2/ZnO Films for High Coloration Efficiency
Compositional Optimization of Sputtered SnO2/ZnO Films for High Coloration Efficiency Open
Electrochromic measurements have been performed to optimize the composition of reactive magnetron-sputtered mixed layers of Zinc oxide and Tin oxide (ZnO-SnO2). A combinatorial material synthesis approach was applied throughout the deposit…
View article: Investigation of Combinatorial TiO2-MoO3 Mixed Layers to Enhance the Coloration Efficiency
Investigation of Combinatorial TiO2-MoO3 Mixed Layers to Enhance the Coloration Efficiency Open
Electrochromic measurements have been performed throughout the full composition range of reactive magnetron-sputtered mixed Titanium oxide and Molybdenum oxide (TiO2-MoO3) to search for enhanced Coloration Efficiency (CE). Optical paramete…
View article: Compositional Optimization of Sputtered WO3/MoO3 Films for High Coloration Efficiency
Compositional Optimization of Sputtered WO3/MoO3 Films for High Coloration Efficiency Open
Thin films of mixed MoO3 and WO3 were obtained using reactive magnetron sputtering onto ITO-covered glass, and the optimal composition was determined for the best electrochromic (EC) properties. A combinatorial material synthesis approach …
View article: Investigation of Electrochromic, Combinatorial TiO2-SnO2 Mixed Layers by Spectroscopic Ellipsometry Using Different Optical Models
Investigation of Electrochromic, Combinatorial TiO2-SnO2 Mixed Layers by Spectroscopic Ellipsometry Using Different Optical Models Open
We determined the optimal composition of reactive magnetron-sputtered mixed layers of Titanium oxide and Tin oxide (TiO2-SnO2) for electrochromic purposes. We determined and mapped the composition and optical parameters using Spectroscopic…
View article: Investigation of Electrochromic, Combinatorial TiO<sub>2</sub>-SnO<sub>2</sub> Mixed Layers by Spectroscopic Ellipsometry using Different Optical Models
Investigation of Electrochromic, Combinatorial TiO<sub>2</sub>-SnO<sub>2</sub> Mixed Layers by Spectroscopic Ellipsometry using Different Optical Models Open
We determined the optimal composition of reactive magnetron sputtered TiO2-SnO2 mixed layers for electrochromic purposes. We determined and mapped the composition and optical parameters by Spectroscopic Ellipsometry (SE). The Ti‐ and Sn‐ t…
View article: Investigation of Combinatorial WO3-MoO3 Mixed Layers by Spectroscopic Ellipsometry Using Different Optical Models
Investigation of Combinatorial WO3-MoO3 Mixed Layers by Spectroscopic Ellipsometry Using Different Optical Models Open
Reactive (Ar-O2 plasma) magnetron sputtered WO3-MoO3 (nanometer scaled) mixed layers were investigated and mapped by Spectroscopic Ellipsometry (SE). The W- and Mo-targets were placed separately, and 30 × 30 cm glass substrates were slowly…
View article: Flagellin-based electrochemical sensing layer for arsenic detection in water
Flagellin-based electrochemical sensing layer for arsenic detection in water Open
View article: Sensing Layer for Ni Detection in Water Created by Immobilization of Bioengineered Flagellar Nanotubes on Gold Surfaces
Sensing Layer for Ni Detection in Water Created by Immobilization of Bioengineered Flagellar Nanotubes on Gold Surfaces Open
The environmental monitoring of Ni is targeted at a threshold limit value of 0.34 μM, as set by the World Health Organization. This sensitivity target can usually only be met by time-consuming and expensive laboratory measurements. There i…