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JOURNAL ARTICLE

Highly Ordered Mesoporous Tungsten Oxides with a Large Pore Size and Crystalline Framework for H2S Sensing

Yuhui LiWei LuoNan QinJunping DongJing WeiWei LiShanshan FengJunchen ChenJiaqiang XuAhmed A. ElzatahryMahir H. Es‐SahebYonghui DengDongyuan Zhao

Year: 2014 Journal:   Angewandte Chemie Vol: 126 (34)Pages: 9181-9186   Publisher: Wiley
DOI: 10.1002/ange.201403817
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Abstract

Abstract An ordered mesoporous WO 3 material with a highly crystalline framework was synthesized by using amphiphilic poly(ethylene oxide)‐ b ‐polystyrene (PEO‐ b ‐PS) diblock copolymers as a structure‐directing agent through a solvent‐evaporation‐induced self‐assembly method combined with a simple template‐carbonization strategy. The obtained mesoporous WO 3 materials have a large uniform mesopore size (ca. 10.9 nm) and a high surface area (ca. 121 m 2 g −1 ). The mesoporous WO 3 ‐based H 2 S gas sensor shows an excellent performance for H 2 S sensing at low concentration (0.25 ppm) with fast response (2 s) and recovery (38 s). The high mesoporosity and continuous crystalline framework are responsible for the excellent performance in H 2 S sensing.

Keywords:
Mesoporous material Materials science Polystyrene Carbonization Chemical engineering Copolymer Mesoporous organosilica Evaporation Ethylene oxide Oxide Nanotechnology Mesoporous silica Organic chemistry Chemistry Polymer Catalysis Scanning electron microscope Composite material

Metrics

33
Cited By
1.85
FWCI (Field Weighted Citation Impact)
74
Refs
0.89
Citation Normalized Percentile
Is in top 1%
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Citation History

Topics

Gas Sensing Nanomaterials and Sensors
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Analytical Chemistry and Sensors
Physical Sciences →  Chemical Engineering →  Bioengineering
Transition Metal Oxide Nanomaterials
Physical Sciences →  Materials Science →  Polymers and Plastics

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