Interplay between O<sub>2</sub> and SnO<sub>2</sub>: Oxygen Ionosorption and Spectroscopic Evidence for Adsorbed Oxygen

Gurlo, Aleksander

doi:10.1002/cphc.200600292

Cited by 444 publications

(347 citation statements)

References 114 publications

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“…The types of oxygen species at the sensor surface are discussed controversially in the literature. There is no spectroscopic evidence for the oxygen interaction with metal oxides (Gurlo, 2006 (Pulkkinen et al, 2001). Other authors expect the double charged atomic ion O 2− to be the predominant species in dry air between 350 and 450 • C, and a competitive adsorption of O − and O 2− around 300 • C (Suematsu et al, 2014).…”

Section: Concept Of Differential Surface Reduction (Dsr)mentioning

confidence: 99%

Novel method for the detection of short trace gas pulses with metal oxide semiconductor gas sensors

Baur

Schultealbert

Schütze

et al. 2018

J. Sens. Sens. Syst.

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Abstract.A novel method for the detection of short pulses of gas at very low concentrations, the differential surface reduction (DSR), is presented. DSR is related to the temperature pulsed reduction (TPR) method. In a high temperature phase, e.g., at 400 • C, the surface of a metal oxide semiconductor gas sensor (MOS) is oxidized in air and then cooled abruptly down to, e.g., 100 • C, conserving the large excess of negative surface charge. In this state reactions of reducing gases with surface oxygen are strongly favored, which increases the sensitivity. Due to the large energy barrier between metal oxide grains caused by the excess surface charge, a highly precise electrical measurement at very low conductance (down to 10 −11 S) is a prerequisite for this method. Moreover, the electrical measurement must be very fast to allow a good resolution of retention times. Applying the method to a doped SnO 2 detector, gas pulses down to a dosage of 1 ppb times seconds can be detected. The gas transport inside the detector is simulated using the finite element method (FEM) to optimize the gas transport and to keep response and recovery time as short as possible. With this approach, we have demonstrated a detection limit for ethanol of below 47 fg.

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Section: Concept Of Differential Surface Reduction (Dsr)mentioning

confidence: 99%

Novel method for the detection of short trace gas pulses with metal oxide semiconductor gas sensors

Baur

Schultealbert

Schütze

et al. 2018

J. Sens. Sens. Syst.

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“…600°C and for the second at over 800°C. TPD-O 2 studies over SnO 2 have been reported in a few works [17,21,[39][40][41]. The general conclusion is that the course of TPD-O 2 strongly depends on the pretreatment of the catalyst surface preceding the process of desorption.…”

Section: Oxygen Adsorptionmentioning

confidence: 99%

CO oxidation over Pt/SnO2 catalysts

Śmiechowicz

Kocemba

Rogowski

et al. 2018

Reac Kinet Mech Cat

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The influence of treatment conditions on Pt/SnO 2 properties and its catalytic activity in CO oxidation was investigated. It was found that the temperature and atmosphere of catalyst heating had a great impact on the active phase dispersion, the chemical composition of the surface layer and the O 2 adsorption capacity of the Pt/SnO 2 catalysts. TOF-SIMS analysis and XRD measurements showed that the heat treatment in an atmosphere of H 2 promotes the formation of bimetallic compounds of Pt-Sn and different species such as PtOH, PtO 2 , PtO 2 H, PtOCl, PtSnO, PtSnOH. It was stated that their presence significantly affects the activity of the catalyst in the CO oxidation. The catalyst capacity of O 2 adsorption varied depending on the treatment conditions. The catalyst treated at 600°C in oxygen showed the greatest ability of oxygen adsorption. A significant difference in the activities between the catalyst samples heated in O 2 or H 2 atmosphere was found. The highest activity was obtained for 1%Pt/SnO 2 sample treated in oxygen at 700°C. The treatment in hydrogen above 100°C caused a decrease in the catalyst activity.

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“…21,22 In addition, the conductance in n-type semiconductor oxides is dependent on oxygen partial pressure, and it decreases when the oxygen partial pressure increase (the inverse is valid for p-type semiconductor oxides). 23,24 Based on these fundamentals, sensor measurements were performed to determine the dominant charge carriers for CCTO films prepared by the PPM and to verify the gas sensitivity of the material (sensor characteristics). The gas test was performed with an oxygen concentration at 12% and varying operating temperatures (200 C, 250 C, and 300 C) (see Figure 2).…”

Section: A Gas Sensing Responsementioning

confidence: 99%

Multi-functional properties of CaCu3Ti4O12 thin films

Felix

Rupp

Varela

et al. 2012

Journal of Applied Physics

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In this work, electric transport properties of CaCu 3 Ti 4 O 12 (CCTO) thin films were investigated for resistive switching, rectifying and gas sensor applications. Single phase CCTO thin films were produced by polymeric precursor method (PPM) on different substrates and their electrical properties were studied. Films produced on LNO/Si substrates have symmetrical non-ohmic current-voltage characteristics, while films deposited on Pt/Si substrates have a highly asymmetrical non-ohmic behavior which is related to a metal-semiconductor junction formed at the CCTO/Pt interface. In addition, results confirm that CCTO has a resistive switching response which is enhanced by Schottky contacts. Sensor response tests revealed that CCTO films are sensitive to oxygen gas and exhibit n-type conductivity. These results demonstrate the versatility of CCTO thin film prepared by the PPM method for gas atmosphere or bias dependent resistance applications. V C 2012 American Institute of Physics. [http://dx

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Interplay between O₂ and SnO₂: Oxygen Ionosorption and Spectroscopic Evidence for Adsorbed Oxygen

Cited by 444 publications

References 114 publications

Novel method for the detection of short trace gas pulses with metal oxide semiconductor gas sensors

Novel method for the detection of short trace gas pulses with metal oxide semiconductor gas sensors

CO oxidation over Pt/SnO2 catalysts

Multi-functional properties of CaCu3Ti4O12 thin films

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Interplay between O2 and SnO2: Oxygen Ionosorption and Spectroscopic Evidence for Adsorbed Oxygen

Cited by 444 publications

References 114 publications

Novel method for the detection of short trace gas pulses with metal oxide semiconductor gas sensors

Novel method for the detection of short trace gas pulses with metal oxide semiconductor gas sensors

CO oxidation over Pt/SnO2 catalysts

Multi-functional properties of CaCu3Ti4O12 thin films

Contact Info

Product

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Interplay between O₂ and SnO₂: Oxygen Ionosorption and Spectroscopic Evidence for Adsorbed Oxygen