Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition

Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition

Mesostructured Technische Universiteit Delft-Crystalline (TUD-C), a hierarchical zeolitic material with MFI framework was used for the first time as catalyst support for the olefins epoxidation. While TUD-C and molybdena doped titania showed considerably low catalytic activities, the molybdena doped...

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Main Authors: Ooi, Y. K., Yuliati, L., Hartanto, D., Nur, H., Lee, S. L.
Format: Article
Published: Elsevier B.V. 2016
Subjects:
QD Chemistry
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author Ooi, Y. K.
Yuliati, L.
Hartanto, D.
Nur, H.
Lee, S. L.
author_facet Ooi, Y. K.
Yuliati, L.
Hartanto, D.
Nur, H.
Lee, S. L.
author_sort Ooi, Y. K.
collection ePrints
description Mesostructured Technische Universiteit Delft-Crystalline (TUD-C), a hierarchical zeolitic material with MFI framework was used for the first time as catalyst support for the olefins epoxidation. While TUD-C and molybdena doped titania showed considerably low catalytic activities, the molybdena doped titania supported on TUD-C exhibited significantly improved catalytic activities with 100% selectivity. Both properties and catalytic performance of the materials were greatly affected by the molar ratio of Si/Al in the TUD-C. It has been demonstrated that Mo-TiO2 supported on TUD-C with Si/Al = 10 was an excellent oxidative catalyst for epoxidation of various types of olefins. Kinetics study revealed that the catalytic reactions followed the first order model.
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institution Universiti Teknologi Malaysia - ePrints
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publisher Elsevier B.V.
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spelling utm.eprints-725822017-11-27T04:10:45Z http://eprints.utm.my/72582/ Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition Ooi, Y. K. Yuliati, L. Hartanto, D. Nur, H. Lee, S. L. QD Chemistry Mesostructured Technische Universiteit Delft-Crystalline (TUD-C), a hierarchical zeolitic material with MFI framework was used for the first time as catalyst support for the olefins epoxidation. While TUD-C and molybdena doped titania showed considerably low catalytic activities, the molybdena doped titania supported on TUD-C exhibited significantly improved catalytic activities with 100% selectivity. Both properties and catalytic performance of the materials were greatly affected by the molar ratio of Si/Al in the TUD-C. It has been demonstrated that Mo-TiO2 supported on TUD-C with Si/Al = 10 was an excellent oxidative catalyst for epoxidation of various types of olefins. Kinetics study revealed that the catalytic reactions followed the first order model. Elsevier B.V. 2016 Article PeerReviewed Ooi, Y. K. and Yuliati, L. and Hartanto, D. and Nur, H. and Lee, S. L. (2016) Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition. Microporous and Mesoporous Materials, 225 . pp. 411-420. ISSN 1387-1811 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84960431552&doi=10.1016%2fj.micromeso.2016.01.016&partnerID=40&md5=d71c734af05ccf93c6b4288d9c93ea85
spellingShingle QD Chemistry
Ooi, Y. K.
Yuliati, L.
Hartanto, D.
Nur, H.
Lee, S. L.
Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition
title Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition
title_full Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition
title_fullStr Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition
title_full_unstemmed Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition
title_short Mesostructured TUD-C supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition
title_sort mesostructured tud c supported molybdena doped titania as high selective oxidative catalyst for olefins epoxidation at ambient condition
topic QD Chemistry
work_keys_str_mv AT ooiyk mesostructuredtudcsupportedmolybdenadopedtitaniaashighselectiveoxidativecatalystforolefinsepoxidationatambientcondition
AT yuliatil mesostructuredtudcsupportedmolybdenadopedtitaniaashighselectiveoxidativecatalystforolefinsepoxidationatambientcondition
AT hartantod mesostructuredtudcsupportedmolybdenadopedtitaniaashighselectiveoxidativecatalystforolefinsepoxidationatambientcondition
AT nurh mesostructuredtudcsupportedmolybdenadopedtitaniaashighselectiveoxidativecatalystforolefinsepoxidationatambientcondition
AT leesl mesostructuredtudcsupportedmolybdenadopedtitaniaashighselectiveoxidativecatalystforolefinsepoxidationatambientcondition

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