Highly sensitive and selective hydrogen sulfide and toluene sensors using Pd functionalized WO3 nanofibers for potential diagnosis of halitosis and lung cancer

In this work, we report a remarkably improved toluene response and superior cross-sensitivity against H2S molecules by combining Pd catalysts and highly porous WO3 nanofibers (NFs). We functionalized Pd catalysts inside and/or outside of WO3 NFs synthesized by electrospinning, which is a facile and...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2014-03, Vol.193, p.574-581
Main Authors: Kim, Nam-Hoon, Choi, Seon-Jin, Yang, Dae-Jin, Bae, Jihyun, Park, Jongjin, Kim, Il-Doo
Format: Article
Language:English
Subjects:
Catalysis
Catalyst
Catalysts
Decoration
Electrospinning
Exhaled breath sensor
Nanofibers
Palladium
Sensors
Toluene
Tungsten oxide
Tungsten oxides
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Summary:In this work, we report a remarkably improved toluene response and superior cross-sensitivity against H2S molecules by combining Pd catalysts and highly porous WO3 nanofibers (NFs). We functionalized Pd catalysts inside and/or outside of WO3 NFs synthesized by electrospinning, which is a facile and versatile process for producing webs of metal oxide NFs. Pd-embedded WO3 NFs were obtained by the electrospinning of a Pd and W composite precursor/poly(methyl methacrylate) (PMMA) solution followed by calcination at 700°C. Pd nanoparticles (NPs) (6–10nm) synthesized by a polyol method were decorated on the WO3 NFs (Pd-NPs/WO3 NFs) by the attachment of the Pd NPs on as-prepared WO3 NFs. The gas sensing characteristics of pure WO3, Pd-embedded WO3, Pd-NPs/WO3, and Pd-NPs/Pd-embedded WO3 NFs were tested using H2S and toluene gases in a highly humid atmosphere (RH 90%), which is similar to human exhaled breath. The results showed that the Pd-NPs/Pd-embedded WO3 NFs whose inner and outer layers were decorated by Pd catalysts, exhibited a high toluene response (Rair/Rgas=5.5 at 1ppm) and remarkable selectivity against H2S (Rair/Rgas=1.36 at 1ppm) at 350°C, whereas pristine WO3 NFs showed superior H2S response (Rair/Rgas=11.1 at 1ppm) along with a negligible response toward toluene (Rair/Rgas=1.27 at 1ppm). The highly porous WO3 NFs decorated with Pd catalysts, exhibited potential feasibility, i.e., a low limit of detection (LOD) of 20ppb (Rair/Rgas=1.32) at 350°C, for application in VOCs sensors, particularly for diagnoses of lung cancer.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2013.12.011