Recent advances in MWW-type titanosilicates

Wei Xie; Yueming Liu; Lingling Wang; Peng Wu

doi:10.3724/SP.J.1088.2010.91205

Recent advances in MWW-type titanosilicates

Wei Xie
, Yueming Liu
, Lingling Wang
, Peng Wu^*

^*此作品的通讯作者

化学与分子工程学院

East China Normal University

科研成果: 期刊稿件 › 文献综述 › 同行评审

13 引用（Scopus）

摘要

The progress in the preparation, structure modification, and catalytic applications in liquid-phase selective oxidations of MWW-type titanosilicates is reviewed. A novel titanosilicate with the MWW topology, Ti-MWW, has been prepared by various methods such as hydrothermal synthesis using boric acid as a crystallization-supporting agent, dry gel conversion, postsynthesis through reversible structural conversion, and dual structure-directing agents method. Ti-MWW, originating from a lamellar precursor, is readily subjected to various structural modifications, which leads to the catalytic materials with larger porosity suitable for a variety of oxidations. The unique pore and structure properties of Ti-MWW make it to be active and selective for the epoxidation of both linear and cyclic alkenes. Moreover, exhibiting a different solvent effect to TS-1, Ti-MWW shows more advantages in product selectivity in the ammoximation of ketones and epoxidation of alkenes with functional groups.

源语言	英语
页（从-至）	502-513
页数	12
期刊	Chinese Journal of Catalysis
卷	31
期	5
DOI	https://doi.org/10.3724/SP.J.1088.2010.91205
出版状态	已出版 - 5月 2010

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title = "Recent advances in MWW-type titanosilicates",

abstract = "The progress in the preparation, structure modification, and catalytic applications in liquid-phase selective oxidations of MWW-type titanosilicates is reviewed. A novel titanosilicate with the MWW topology, Ti-MWW, has been prepared by various methods such as hydrothermal synthesis using boric acid as a crystallization-supporting agent, dry gel conversion, postsynthesis through reversible structural conversion, and dual structure-directing agents method. Ti-MWW, originating from a lamellar precursor, is readily subjected to various structural modifications, which leads to the catalytic materials with larger porosity suitable for a variety of oxidations. The unique pore and structure properties of Ti-MWW make it to be active and selective for the epoxidation of both linear and cyclic alkenes. Moreover, exhibiting a different solvent effect to TS-1, Ti-MWW shows more advantages in product selectivity in the ammoximation of ketones and epoxidation of alkenes with functional groups.",

keywords = "Hydrogen peroxide, Liquid-phase oxidation, TS-1 zeolite, Ti-MWW zeolite, Titanosilicate",

author = "Wei Xie and Yueming Liu and Lingling Wang and Peng Wu",

year = "2010",

month = may,

doi = "10.3724/SP.J.1088.2010.91205",

language = "英语",

volume = "31",

pages = "502--513",

journal = "Chinese Journal of Catalysis",

issn = "1872-2067",

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TY - JOUR

T1 - Recent advances in MWW-type titanosilicates

AU - Xie, Wei

AU - Liu, Yueming

AU - Wang, Lingling

AU - Wu, Peng

PY - 2010/5

Y1 - 2010/5

N2 - The progress in the preparation, structure modification, and catalytic applications in liquid-phase selective oxidations of MWW-type titanosilicates is reviewed. A novel titanosilicate with the MWW topology, Ti-MWW, has been prepared by various methods such as hydrothermal synthesis using boric acid as a crystallization-supporting agent, dry gel conversion, postsynthesis through reversible structural conversion, and dual structure-directing agents method. Ti-MWW, originating from a lamellar precursor, is readily subjected to various structural modifications, which leads to the catalytic materials with larger porosity suitable for a variety of oxidations. The unique pore and structure properties of Ti-MWW make it to be active and selective for the epoxidation of both linear and cyclic alkenes. Moreover, exhibiting a different solvent effect to TS-1, Ti-MWW shows more advantages in product selectivity in the ammoximation of ketones and epoxidation of alkenes with functional groups.

AB - The progress in the preparation, structure modification, and catalytic applications in liquid-phase selective oxidations of MWW-type titanosilicates is reviewed. A novel titanosilicate with the MWW topology, Ti-MWW, has been prepared by various methods such as hydrothermal synthesis using boric acid as a crystallization-supporting agent, dry gel conversion, postsynthesis through reversible structural conversion, and dual structure-directing agents method. Ti-MWW, originating from a lamellar precursor, is readily subjected to various structural modifications, which leads to the catalytic materials with larger porosity suitable for a variety of oxidations. The unique pore and structure properties of Ti-MWW make it to be active and selective for the epoxidation of both linear and cyclic alkenes. Moreover, exhibiting a different solvent effect to TS-1, Ti-MWW shows more advantages in product selectivity in the ammoximation of ketones and epoxidation of alkenes with functional groups.

KW - Hydrogen peroxide

KW - Liquid-phase oxidation

KW - TS-1 zeolite

KW - Ti-MWW zeolite

KW - Titanosilicate

UR - https://www.scopus.com/pages/publications/77955444066

U2 - 10.3724/SP.J.1088.2010.91205

DO - 10.3724/SP.J.1088.2010.91205

M3 - 文献综述

AN - SCOPUS:77955444066

SN - 1872-2067

VL - 31

SP - 502

EP - 513

JO - Chinese Journal of Catalysis

JF - Chinese Journal of Catalysis

IS - 5

ER -

Recent advances in MWW-type titanosilicates

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