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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 International Edition Vol: 53 (34)Pages: 9035-9040   Publisher: Wiley
DOI: 10.1002/anie.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 Evaporation Mesoporous organosilica Ethylene oxide Oxide Nanotechnology Tungsten Mesoporous silica Organic chemistry Polymer Catalysis Chemistry Composite material Scanning electron microscope

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0.99
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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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