Add to ORKGA pseudopotential plane-wave based density functional theory simulations of the hydrogen adsorption on rutile SnO2 (110) surface is reported. It is found that on doping with trivalent indium, the surface becomes unstable due to the formation of bridging oxygen vacancies. At sufficiently low doping level, the surface stabilizes at an oxygen vacancy to indium ratio of 1:2. Our calculations predict that at a higher doping level of 9 at. %, this ratio becomes larger, and point out a way to synthesize p-type conducting SnO2 thin films. The binding energy of SnO2 (110) surface with adsorbed hydrogen atoms display a maximum at 3-6 at. % of indium doping. This is in good agreement with the experimental results obtained from the SnO2-based hydrogen ...
The behavior of hydrogen on the 110 surfaces of III-V semiconductors is examined using ab initio den...
AbstractTwo SnO2 materials synthesized from SnCl4 and Sn(CH3COO)2 precursors were investigated conce...
International audienceThe development of efficient chemical sensors based on semiconductor oxides is...
The effect of different indium doping concentrations on the room temperature hydrogen sensitivity of...
The effect of different indium doping concentrations on the room temperature hydrogen sensitivity of...
The content of hydrogen is a key quantity in condition assessment and fault diagnosis of power trans...
Understanding the interaction between oxygen molecules and metal oxide semiconductors surface is im...
Hydrogen adsorption on palladium atoms pre-adsorbed on a tin oxide semiconductor has been studied an...
SnO2 is widely used as a transparent conductor and sensor material. Better understanding and control...
Hydrogen adsorption on palladium atoms pre-adsorbed on a tin oxide semiconductor has been studied an...
A molecular understanding of the adsorption of water on SnO2 surfaces is crucial for several applica...
A molecular understanding of the adsorption of water on SnO2 surfaces is crucial for several applica...
Analysis of the results of studying electrical and gas sensitive characteristics of the molecular hy...
Analysis of the results of studying electrical and gas sensitive characteristics of the molecular hy...
Effect of hydrogen in the concentration range from 10 to 2000 ppm on the characteristics of sensors ...
The behavior of hydrogen on the 110 surfaces of III-V semiconductors is examined using ab initio den...
AbstractTwo SnO2 materials synthesized from SnCl4 and Sn(CH3COO)2 precursors were investigated conce...
International audienceThe development of efficient chemical sensors based on semiconductor oxides is...
The effect of different indium doping concentrations on the room temperature hydrogen sensitivity of...
The effect of different indium doping concentrations on the room temperature hydrogen sensitivity of...
The content of hydrogen is a key quantity in condition assessment and fault diagnosis of power trans...
Understanding the interaction between oxygen molecules and metal oxide semiconductors surface is im...
Hydrogen adsorption on palladium atoms pre-adsorbed on a tin oxide semiconductor has been studied an...
SnO2 is widely used as a transparent conductor and sensor material. Better understanding and control...
Hydrogen adsorption on palladium atoms pre-adsorbed on a tin oxide semiconductor has been studied an...
A molecular understanding of the adsorption of water on SnO2 surfaces is crucial for several applica...
A molecular understanding of the adsorption of water on SnO2 surfaces is crucial for several applica...
Analysis of the results of studying electrical and gas sensitive characteristics of the molecular hy...
Analysis of the results of studying electrical and gas sensitive characteristics of the molecular hy...
Effect of hydrogen in the concentration range from 10 to 2000 ppm on the characteristics of sensors ...
The behavior of hydrogen on the 110 surfaces of III-V semiconductors is examined using ab initio den...
AbstractTwo SnO2 materials synthesized from SnCl4 and Sn(CH3COO)2 precursors were investigated conce...
International audienceThe development of efficient chemical sensors based on semiconductor oxides is...