A Unique Fe/Beta@TiO2 Core–Shell Catalyst by Small-Grain Molecular Sieve as the Core and TiO2 Nanosize Thin Film as the Shell for the Removal of NOx

Liu, Jian; Liu, J.; Zhao, Z.; Wei, Y.; Song, W.; Li, J.; Zhang, X.

doi:10.1021/acs.iecr.7b00740

Access Status

Fulltext not available

Authors

Liu, Jian

Liu, J.

Zhao, Z.

Wei, Y.

Song, W.

Li, J.

Zhang, X.

Date

2017

Type

Journal Article

Metadata

Show full item record

Citation

Liu, J. and Liu, J. and Zhao, Z. and Wei, Y. and Song, W. and Li, J. and Zhang, X. 2017. A Unique Fe/Beta@TiO2 Core–Shell Catalyst by Small-Grain Molecular Sieve as the Core and TiO2 Nanosize Thin Film as the Shell for the Removal of NOx. Industrial and Engineering Chemistry Research. 56 (20): pp. 5833-5842.

Source Title

Industrial and Engineering Chemistry Research

DOI

10.1021/acs.iecr.7b00740

ISSN

0888-5885

School

Department of Chemical Engineering

URI

http://hdl.handle.net/20.500.11937/54274

Collection

Curtin Research Publications

Abstract

Fe/Beta@TiO 2 core-shell catalysts with nanosize TiO 2 thin film as the shell and small-grain Beta supporting Fe oxides as the core were controllably synthesized by a self-assembly method, and their catalytic performances were investigated for selective catalytic reduction of NO x with NH 3 (NH 3 -SCR). It was found that TiO 2 shells decrease the acid amount and weaken the acid strength of the catalyst, which could be beneficial to inhibiting the adsorption of acrolein species from covering active sites and then improving the ability of NO oxidation to NO 2 during NH 3 -SCR. Moreover, TiO 2 shells not only can prevent the deposition of coke and nitrate species from blocking the active iron sites, but also can serve as an effective barrier to suppress the active metal oxide nanoparticles from aggregating at high temperature. Therefore, Fe/Beta@TiO 2 exhibits an improved thermal stability, higher propene, and H 2 O-tolerance.