Room temperature hydrogen sensing properties of multiple-networked Nb2O5-nanorod sensors decorated with Pd nanoparticles

Nb 2 O 5 nanosensors showing good sensing performances toward hydrogen and oxygen at high temperatures have been reported several times, but high-performance room-temperature Nb 2 O 5 gas sensors have not been reported to date. Pd-Nb 2 O 5 nanorods were synthesized by using thermal oxidation of a Nb...

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Published inJournal of the Korean Physical Society Vol. 65; no. 9; pp. 1414 - 1418
Main Authors Park, Sangbo, Park, Sunghoon, Kim, Soohyun, Hyun, Soong Keun, Lee, Chongmu
Format Journal Article
LanguageEnglish
Published Seoul The Korean Physical Society 01.11.2014
한국물리학회
Subjects
Mathematical and Computational Physics
Particle and Nuclear Physics
Physics
Physics and Astronomy
Theoretical
물리학
Nb
nanorods
Hydrogen
Gas sensors
Pd-decoration
O
Online AccessGet full text
ISSN0374-4884
1976-8524
DOI10.3938/jkps.65.1414

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Abstract Nb 2 O 5 nanosensors showing good sensing performances toward hydrogen and oxygen at high temperatures have been reported several times, but high-performance room-temperature Nb 2 O 5 gas sensors have not been reported to date. Pd-Nb 2 O 5 nanorods were synthesized by using thermal oxidation of a Nb foil, followed by wet chemical coating of Pd under UV illumination. The responses of multiple-networked Pd-Nb 2 O 5 nanorod sensors to 10,000 ppm of hydrogen at room temperature were ∼218% and ∼496%, respectively. Responses obtained in this study were far higher than that to 2,000 ppm of H 2 obtained previously at the same temperature by using Pt/Nb 2 O 5 Schottky-diode sensors. These results suggest that multiple-networked 1D nanostructure sensors, which can be fabricated more easily, are superior in H 2 -gas-sensing properties to Schottky-diode-type nanostructure sensors, which require precise techniques to connect the nanostructures. The origin of the enhanced sensing properties of the Pd-decorated Nb 2 O 5 nanorods toward hydrogen is also discussed.
AbstractList Nb 2 O 5 nanosensors showing good sensing performances toward hydrogen and oxygen at high temperatures have been reported several times, but high-performance room-temperature Nb 2 O 5 gas sensors have not been reported to date. Pd-Nb 2 O 5 nanorods were synthesized by using thermal oxidation of a Nb foil, followed by wet chemical coating of Pd under UV illumination. The responses of multiple-networked Pd-Nb 2 O 5 nanorod sensors to 10,000 ppm of hydrogen at room temperature were ∼218% and ∼496%, respectively. Responses obtained in this study were far higher than that to 2,000 ppm of H 2 obtained previously at the same temperature by using Pt/Nb 2 O 5 Schottky-diode sensors. These results suggest that multiple-networked 1D nanostructure sensors, which can be fabricated more easily, are superior in H 2 -gas-sensing properties to Schottky-diode-type nanostructure sensors, which require precise techniques to connect the nanostructures. The origin of the enhanced sensing properties of the Pd-decorated Nb 2 O 5 nanorods toward hydrogen is also discussed.
Nb2O5 nanosensors showing good sensing performances toward hydrogen and oxygen at hightemperatures have been reported several times, but high-performance room-temperature Nb2O5gas sensors have not been reported to date. Pd-Nb2O5 nanorods were synthesized by using thermaloxidation of a Nb foil, followed by wet chemical coating of Pd under UV illumination. The responsesof multiple-networked Pd-Nb2O5 nanorod sensors to 10,000 ppm of hydrogen at room temperaturewere 218% and 496%, respectively. Responses obtained in this study were far higher than thatto 2,000 ppm of H2 obtained previously at the same temperature by using Pt/Nb2O5 Schottkydiodesensors. These results suggest that multiple-networked 1D nanostructure sensors, whichcan be fabricated more easily, are superior in H2-gas-sensing properties to Schottky-diode-typenanostructure sensors, which require precise techniques to connect the nanostructures. The originof the enhanced sensing properties of the Pd-decorated Nb2O5 nanorods toward hydrogen is alsodiscussed. KCI Citation Count: 5
Author Lee, Chongmu
Kim, Soohyun
Park, Sangbo
Hyun, Soong Keun
Park, Sunghoon
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Pd-decoration
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한국물리학회
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Snippet Nb 2 O 5 nanosensors showing good sensing performances toward hydrogen and oxygen at high temperatures have been reported several times, but high-performance...
Nb2O5 nanosensors showing good sensing performances toward hydrogen and oxygen at hightemperatures have been reported several times, but high-performance...
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SubjectTerms Mathematical and Computational Physics
Particle and Nuclear Physics
Physics
Physics and Astronomy
Theoretical
물리학
Title Room temperature hydrogen sensing properties of multiple-networked Nb2O5-nanorod sensors decorated with Pd nanoparticles
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