Volume 2, 2024

Zeolite catalysts for non-oxidative ethane dehydrogenation to ethylene

Abstract

The conversion of ethane to ethylene is crucial for deriving platform chemicals from non-petroleum feedstock. However, it currently relies on steam cracking technology, which involves high temperatures and large reactors. The catalytic dehydrogenation of ethane (EDH) could resolve these issues, but its efficiency is often limited due to thermodynamics, leading to low conversion and coke formation. These challenges make it difficult for catalytic EDH to compete economically with steam cracking. Recent studies show that rational design of catalysts, such as fixing metal nanoclusters within zeolite micropores or isolated metal sites on the zeolite framework, can enhance catalytic performances. These designs lower energy barriers for carbon–hydrogen bond activation, hinder deep dehydrogenation to coke, and provide sinter-resistant metal sites for durability. This review discusses the pivotal role of zeolite structures in catalysis and sums up the principles of catalyst design for efficient non-oxidative EDH. It aims to help in the development of more efficient zeolite catalysts and enhance the viability of catalytic EDH for potential industrialization.

Graphical abstract: Zeolite catalysts for non-oxidative ethane dehydrogenation to ethylene

Article information

Article type
Minireview
Submitted
20 feb 2024
Accepted
28 feb 2024
First published
19 mar 2024
This article is Open Access
Creative Commons BY-NC license

EES. Catal., 2024,2, 923-931

Zeolite catalysts for non-oxidative ethane dehydrogenation to ethylene

L. Liu, L. Wang and F. Xiao, EES. Catal., 2024, 2, 923 DOI: 10.1039/D4EY00031E

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