Toluene oxidation process and proper mechanism over Co3O4 nanotubes: Investigation through in-situ DRIFTS combined with PTR-TOF-MS and quasi in-situ XPS

Series of Co3O4 nanotubes and nanoparticles were synthesized via solvothermal method without template. In situ DRIFTS combined with PTR-TOF-MS, quasi in-situ XPS and UV–vis-DRS were introduced to learn the process of toluene oxidation, confirmed that the reaction mechanism over catalyst followed the...

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Published in:	Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 397; p. 125375
Main Authors:	Zhong, Jinping, Zeng, Yikui, Zhang, Mingyuan, Feng, Weihua, Xiao, Diran, Wu, Junliang, Chen, Peirong, Fu, Mingli, Ye, Daiqi
Format:	Journal Article
Language:	English
Published:	Elsevier B.V 01-10-2020
Subjects:	in-situ DRIFTS PTR-TOF-MS Quasi in-situ XPS Surface lattice oxygen Toluene oxidation Quasi in-situ XPS Toluene oxidation Surface lattice oxygen PTR-TOF-MS in-situ DRIFTS
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Abstract	Series of Co3O4 nanotubes and nanoparticles were synthesized via solvothermal method without template. In situ DRIFTS combined with PTR-TOF-MS, quasi in-situ XPS and UV–vis-DRS were introduced to learn the process of toluene oxidation, confirmed that the reaction mechanism over catalyst followed the Mars-van Krevelen mechanism and surface lattice oxygen played an important role in deeper oxidation toluene. In addition, ring opened by-product species were detected by PTR-TOF-MS, while these species were not identified by in situ DRIFTS. [Display omitted] •Co3O4 nanotubes and nanoparticle were synthesized via solvothermal method without template.•Co3O4 nanotubes exhibited high catalytic efficiency for toluene oxidation.•The role of surface lattice oxygen and gas phase oxygen were investigated and illustrated in detail.•Toluene oxidation process were investigated by combination of in-situ DRIFTS, PTR-TOF-MS, quasi in-situ XPS, UV–vis-DRS. Improving catalytic efficiency is a yet still challenge in thermal catalytic oxidation. One of the key issues is to understand its catalytic oxidation mechanism. Here, a series of Co3O4 samples were prepared by solvothermal method. The characterization records showed that nanotubular Co3O4-NTs-2 for its rough surface, low temperature reducibility, abundance of Co3+ ions and surface adsorption oxygen species, thus exhibited high efficiency (T90 = 240℃, Ea = 67.42 kJ/mol) in catalytic oxidation of toluene. In-situ DRIFTS combined PTR-TOF-MS were applied to investigate the reaction process of toluene oxidation. These results revealed that the catalytic oxidation of toluene followed the listed way: toluene → benzyl alcohol → benzaldehyde → benzoate → benzene → phenol → benzoquinone → maleic anhydride and other ring opening by-products like ethanol, acetaldehyde, acetic acid, acetone etc., then ultimately mineralized to CO2 and H2O. Furthermore, the results of quasi in-situ XPS in C7H8/N2, toluene conversion in O2-free evaluation and UV–vis-DRS analysis further confirmed that surface lattice oxygen played an important role in toluene oxidation, and gas-phase oxygen facilitated the reaction. The combination of a series of instruments provided a promising means for further understanding the oxidation mechanism of toluene.
AbstractList	Series of Co3O4 nanotubes and nanoparticles were synthesized via solvothermal method without template. In situ DRIFTS combined with PTR-TOF-MS, quasi in-situ XPS and UV–vis-DRS were introduced to learn the process of toluene oxidation, confirmed that the reaction mechanism over catalyst followed the Mars-van Krevelen mechanism and surface lattice oxygen played an important role in deeper oxidation toluene. In addition, ring opened by-product species were detected by PTR-TOF-MS, while these species were not identified by in situ DRIFTS. [Display omitted] •Co3O4 nanotubes and nanoparticle were synthesized via solvothermal method without template.•Co3O4 nanotubes exhibited high catalytic efficiency for toluene oxidation.•The role of surface lattice oxygen and gas phase oxygen were investigated and illustrated in detail.•Toluene oxidation process were investigated by combination of in-situ DRIFTS, PTR-TOF-MS, quasi in-situ XPS, UV–vis-DRS. Improving catalytic efficiency is a yet still challenge in thermal catalytic oxidation. One of the key issues is to understand its catalytic oxidation mechanism. Here, a series of Co3O4 samples were prepared by solvothermal method. The characterization records showed that nanotubular Co3O4-NTs-2 for its rough surface, low temperature reducibility, abundance of Co3+ ions and surface adsorption oxygen species, thus exhibited high efficiency (T90 = 240℃, Ea = 67.42 kJ/mol) in catalytic oxidation of toluene. In-situ DRIFTS combined PTR-TOF-MS were applied to investigate the reaction process of toluene oxidation. These results revealed that the catalytic oxidation of toluene followed the listed way: toluene → benzyl alcohol → benzaldehyde → benzoate → benzene → phenol → benzoquinone → maleic anhydride and other ring opening by-products like ethanol, acetaldehyde, acetic acid, acetone etc., then ultimately mineralized to CO2 and H2O. Furthermore, the results of quasi in-situ XPS in C7H8/N2, toluene conversion in O2-free evaluation and UV–vis-DRS analysis further confirmed that surface lattice oxygen played an important role in toluene oxidation, and gas-phase oxygen facilitated the reaction. The combination of a series of instruments provided a promising means for further understanding the oxidation mechanism of toluene.
ArticleNumber	125375
Author	Zeng, Yikui Fu, Mingli Zhong, Jinping Feng, Weihua Zhang, Mingyuan Wu, Junliang Chen, Peirong Xiao, Diran Ye, Daiqi
Author_xml	– sequence: 1 givenname: Jinping surname: Zhong fullname: Zhong, Jinping organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China – sequence: 2 givenname: Yikui surname: Zeng fullname: Zeng, Yikui organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China – sequence: 3 givenname: Mingyuan surname: Zhang fullname: Zhang, Mingyuan organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China – sequence: 4 givenname: Weihua surname: Feng fullname: Feng, Weihua organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China – sequence: 5 givenname: Diran surname: Xiao fullname: Xiao, Diran organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China – sequence: 6 givenname: Junliang surname: Wu fullname: Wu, Junliang organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China – sequence: 7 givenname: Peirong surname: Chen fullname: Chen, Peirong organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China – sequence: 8 givenname: Mingli surname: Fu fullname: Fu, Mingli organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China – sequence: 9 givenname: Daiqi surname: Ye fullname: Ye, Daiqi email: cedqye@scut.edu.cn organization: School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China
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Snippet	Series of Co3O4 nanotubes and nanoparticles were synthesized via solvothermal method without template. In situ DRIFTS combined with PTR-TOF-MS, quasi in-situ...
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SubjectTerms	in-situ DRIFTS PTR-TOF-MS Quasi in-situ XPS Surface lattice oxygen Toluene oxidation
Title	Toluene oxidation process and proper mechanism over Co3O4 nanotubes: Investigation through in-situ DRIFTS combined with PTR-TOF-MS and quasi in-situ XPS
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