SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2093738730> ?p ?o ?g. }

Showing items 1 to 100 of ±114 with 100 items per page.

W2093738730 endingPage "405" @default.
W2093738730 startingPage "393" @default.
W2093738730 abstract "Reactions of hydrogen at the interface of palladium (Pd)/n-type titanium dioxide (n-TiO2) (001) and (100) Schottky diodes, which are used as hydrogen sensors, have been investigated by measurements of the current-voltage (IV) and capacitance-voltage (CV) characteristics and changes in the workfunction. The workfunction of the Pd surface decreases monotonically with an increase in the concentration of hydrogen introduced to the air because of the substitution of hydrogen atoms adsorbed on Pd for adsorbed oxygen atoms. The energy barrier at the Pd/n-TiO2 interface is also lowered with an increase in the hydrogen concentration. The magnitudes of the barrier height lowering and its dependence on the hydrogen concentration are quite different for the Pd/n-TiO2(001) and (100) diodes, indicating that the chemical structure of the interface depends strongly on the crystal orientation. The plot of the barrier height lowering for the (001) diodes versus the decrease in the Pd workfunction is parabolic-like throughout the hydrogen concentration region investigated (0–3000 ppm), whereas for the (100) diode, it is parabolic-like only in the low hydrogen concentration region below ~ 100 ppm, and becomes linear in the higher concentration region. Analysis of the plots has led to the following model. In the case of the Pd/TiO2(001) diode, the main reaction at the interface to lower the energy barrier is the reduction of interfacially adsorbed oxygen atoms to water by hydrogen atoms coming from the surface through the Pd layer. In the case of the Pd/TiO2(100) diode, on the other hand, water formation is the dominant reaction at the interface only in the low hydrogen concentration region, and hydrogen adsorption on bare Pd atoms becomes dominant in the higher hydrogen concentration region. The free energy of adsorption of oxygen atoms at the Pd/TiO2(001) interface is estimated to be 0.14 eV in absolute value larger than that at the Pd/TiO2(100) interface. It is found that a larger amount of oxygen atoms are adsorbed at the Pd/TiO2(001) interface, in accordance with the higher free energy of adsorption. By vacuum evacuation and the introduction of pure oxygen, the IV and CV curves for the Pd/TiO2(001) and (100) diodes behave differently. These results are explained by the presence (or absence) of crystallographic channels perpendicular to the Pd/n-TiO2 interface for the (001) (or (100)) diode, through which hydrogen and oxygen atoms diffuse into the TiO2 bulk." @default.
W2093738730 created "2016-06-24" @default.
W2093738730 creator A5003319013 @default.
W2093738730 creator A5011607655 @default.
W2093738730 creator A5062147147 @default.
W2093738730 date "1994-04-01" @default.
W2093738730 modified "2023-09-26" @default.
W2093738730 title "Reactions of hydrogen at the interface of palladium-titanium dioxide Schottky diodes as hydrogen sensors, studied by workfunction and electrical characteristic measurements" @default.
W2093738730 cites W1964249310 @default.
W2093738730 cites W1976462016 @default.
W2093738730 cites W1977386201 @default.
W2093738730 cites W1981175347 @default.
W2093738730 cites W1989036133 @default.
W2093738730 cites W1995105855 @default.
W2093738730 cites W1998945670 @default.
W2093738730 cites W2005515352 @default.
W2093738730 cites W2009883729 @default.
W2093738730 cites W2015910349 @default.
W2093738730 cites W2020738720 @default.
W2093738730 cites W2023503878 @default.
W2093738730 cites W2026579073 @default.
W2093738730 cites W2031661085 @default.
W2093738730 cites W2033197362 @default.
W2093738730 cites W2052420346 @default.
W2093738730 cites W2054345211 @default.
W2093738730 cites W2056418207 @default.
W2093738730 cites W2057860781 @default.
W2093738730 cites W2060394072 @default.
W2093738730 cites W2074997251 @default.
W2093738730 cites W2077927286 @default.
W2093738730 cites W2081153011 @default.
W2093738730 cites W2083980205 @default.
W2093738730 cites W2088595625 @default.
W2093738730 cites W2089247531 @default.
W2093738730 cites W4232574758 @default.
W2093738730 cites W4243559154 @default.
W2093738730 cites W4244976076 @default.
W2093738730 cites W4245003289 @default.
W2093738730 cites W2024766079 @default.
W2093738730 doi "https://doi.org/10.1016/0039-6028(94)90080-9" @default.
W2093738730 hasPublicationYear "1994" @default.
W2093738730 type Work @default.
W2093738730 sameAs 2093738730 @default.
W2093738730 citedByCount "29" @default.
W2093738730 countsByYear W20937387302013 @default.
W2093738730 countsByYear W20937387302015 @default.
W2093738730 countsByYear W20937387302016 @default.
W2093738730 countsByYear W20937387302018 @default.
W2093738730 countsByYear W20937387302019 @default.
W2093738730 countsByYear W20937387302020 @default.
W2093738730 countsByYear W20937387302021 @default.
W2093738730 countsByYear W20937387302022 @default.
W2093738730 countsByYear W20937387302023 @default.
W2093738730 crossrefType "journal-article" @default.
W2093738730 hasAuthorship W2093738730A5003319013 @default.
W2093738730 hasAuthorship W2093738730A5011607655 @default.
W2093738730 hasAuthorship W2093738730A5062147147 @default.
W2093738730 hasConcept C113196181 @default.
W2093738730 hasConcept C147789679 @default.
W2093738730 hasConcept C150394285 @default.
W2093738730 hasConcept C16115445 @default.
W2093738730 hasConcept C161790260 @default.
W2093738730 hasConcept C178790620 @default.
W2093738730 hasConcept C185592680 @default.
W2093738730 hasConcept C191897082 @default.
W2093738730 hasConcept C192562407 @default.
W2093738730 hasConcept C205200001 @default.
W2093738730 hasConcept C2777593239 @default.
W2093738730 hasConcept C43617362 @default.
W2093738730 hasConcept C49040817 @default.
W2093738730 hasConcept C502130503 @default.
W2093738730 hasConcept C506065880 @default.
W2093738730 hasConcept C512968161 @default.
W2093738730 hasConcept C55493867 @default.
W2093738730 hasConcept C78434282 @default.
W2093738730 hasConceptScore W2093738730C113196181 @default.
W2093738730 hasConceptScore W2093738730C147789679 @default.
W2093738730 hasConceptScore W2093738730C150394285 @default.
W2093738730 hasConceptScore W2093738730C16115445 @default.
W2093738730 hasConceptScore W2093738730C161790260 @default.
W2093738730 hasConceptScore W2093738730C178790620 @default.
W2093738730 hasConceptScore W2093738730C185592680 @default.
W2093738730 hasConceptScore W2093738730C191897082 @default.
W2093738730 hasConceptScore W2093738730C192562407 @default.
W2093738730 hasConceptScore W2093738730C205200001 @default.
W2093738730 hasConceptScore W2093738730C2777593239 @default.
W2093738730 hasConceptScore W2093738730C43617362 @default.
W2093738730 hasConceptScore W2093738730C49040817 @default.
W2093738730 hasConceptScore W2093738730C502130503 @default.
W2093738730 hasConceptScore W2093738730C506065880 @default.
W2093738730 hasConceptScore W2093738730C512968161 @default.
W2093738730 hasConceptScore W2093738730C55493867 @default.
W2093738730 hasConceptScore W2093738730C78434282 @default.
W2093738730 hasIssue "3" @default.
W2093738730 hasLocation W20937387301 @default.
W2093738730 hasOpenAccess W2093738730 @default.
W2093738730 hasPrimaryLocation W20937387301 @default.
W2093738730 hasRelatedWork W1976058171 @default.